^ftf->jw p)fttffrts«s5w««w«(x39- ;«*««Wfjffl, *: < A:'?^ fr*j. -^[a'uttlflfcmsfjj&ft&sftt-te:-?-- (T39- -KfefeW W»«: K*W H ^K f- fj«f > S rtrl«) T-fU'

JAER-Data Code 94-3 JAER-Data/Code 94-3 JP95OA36 ATTENUATON DATA OF PONT SOTROPC NEUTRON SOURCES UP TO 4MeV N WATER, ORDNARY CONCRETE AND RON August 894 Hrosh KOTEGAWA, Shun ch TANAKA, Yuko SAKAMOTO Yoshhro NAKANE and Hrosh NAKASHMA Japan Atomc Energy Research nsttute

^ftf->jw p)fttffrts«s5w««w«(x39- ;«*««Wfjffl, *: < A:'?^ fr*j. -^[a'uttlflfcmsfjj&ft&sftt-te:-?-- (T39- -KfefeW W»«: K*W H ^K f- fj«f > S rtrl«) T-fU''>: J: S' Ths report s ssued rregularly. nqures aboul avalablty of the reports should be addressed to nformaton Dvson. Department of Techncal nformaton. Japan Atomc Energy Research nsttute. Tokamura. Naka-gun. barak-ken.9-. Japan. Japan Atomc Knorfy Rwavl nsttute. lth H *«f

JAER-Data/Code 9U-3 Attenuaton Data of pont sotropc Neutron Sources up to UOOMeV n Water, Ordnary Concrete and ron Hrosh KOTEGAWA, Shun-ch TANAKA, Yuko SAKAMOTO Yoshhro NAKANE and Hrosh NAKASHMA Department of Reactor Engneerng Toka Research Establshment Japan Atomc Energy Research nsttute Toka-mura, Naka-gun, barak-ken (Receved May 3, 994) A comprehensve attenuaton data of dose equvalent for pont sotropc monoenergetc neutron sources up to 4MeV n nfnte shelds of water, ordnary concrete and ron has been calculated usng the ANSN-JR code and a neutron-photon multgroup acroscopc cross secton HLO86R. The attenuaton factors were ftted to a 4th order polynomal exponent formula, Bakng possble to use easly for pont kernel codes. Addtonal data n fnte sheldng geometry was also calculated to correct the effect due to nfnte medum, gvng the maxmum correcton of.23 n the regon for more 4 cm dstance from neutron source of 4 MeV n ron sheld. Effectve attenuaton length for monoenergetc neutrons have been studed n detal. Subsequently, t was shown that the attenuaton length was strongly dependent upon the penetraton length and the Moyer's forula usng a sngle attenuaton length brought large error nto the dose estmaton behnd thck shelds for the ntermedate energy neutrons up to 4 MeV. Furthermore, t was demonstrated that there was dfference lore than 5 % n the attenuaton length of ron between the calculatons wth HL86R and HL86 because of the self-sheldng effect. Keywords : Attenuaton Data, Hgh Energy Neutron Source, Secondary Gama-Rays, Pont sotropc Source, Dose Equvalent, Water, Concrete, ron, HLO86R, HL86, Attenuaton Length

JAER-Data/Code 94-3 *- ffl*ft- «* ** *ff &% AN SN3-Kt^4^-r«^SfEmWBfff»H LO8 6R < ->T. 4«leV*T js tf«^tt 2»!«**S**S^«t -StWLfco H LO 8 6 H LO 8 6 rjt-^t. & 8SlS!gJtJ. 59dt±^:# < '< j^ffsttffafl-ca-kpkn-ht 4o«±T : f 39-35*SJa5**WaS e«2-4

.AKK.n. ~ Contents. ntroducton 2. Calculatonal Method 2. Dose Equvalent Calculaton 2.2 Neutron Cross Secton Data, HLO86R 2 3. Attenuaton Factors and Fttng Parameters 3 3. Attenuaton Factors of Dose Bqu"sl?nt 3 3.2 Fttng Formula of Attenuaton Factor 3 3.3 Extrapolaton of Attenuaton Factor U 3.U nfnte Medum Effect 6 4. Dscusson of Attenuaton Length 5. Concludng Remarks 8 Acknowledgements 9 References 9 Appendx 6. m A 2. U-UWff 2. ^M^Mt* 2.2 tf^fefs-?-*. H LO8 6R 2 3. f*t^yf<>r-a y-j' 3 3. mtmom^m 3 3.2 tt* &tt:t 3 3. 3 tt$$<z>ft# 4 3.4 MJB&HS&H 6 4. & m# mm 5. fft 8 W 8 9 #%Xtt 9 ft ft 6

.AKK Dan- Code t! (,H. NTRODUCTON The present authors have calculated the attenuaton data of neutron and secondary gamma-ray dose equvalents for neutron sources from. HeV up to 4.9 MeV n water, ordnary concrete and ron shelds based on the JSD- lbrary, 2 and developed a pont kernel code PKN 3> usng the attenuaton data ftted to a 4-th order polynomal exponent formula, snce the feature of the buldup factor was changed anomalously and sgnfcantly wth source energy and penetratons, and essentally dependent upon the group structure of the neutron cross secton used. n ths work, the attenuaton data for 55 neutron energes above. MeV up to 4 MeV have been calculated usng a hgh energy neutron group cross secton HL86R lbrary 4. The new attenuaton factors were also ftted to a polynomal exponent formula modfed from the prevous one to represent the attenuaton n deep penetraton. Addtonal data for fnte medum were calculated to estmate the nfnte medum effect, as well. These data have been stored n a PKN-H 6 * code, hgher energy verson of pont kernel code PKN 3>, to apply t for sheldng calculatons from. MeV to 4 MeV neutrons. The attenuaton length, whch s specally mportant for sheldng calculatons of hgh energy neutrons, has been studed n detal based on the attenuaton data, and dscussed together wth exsstng calculatons and experments. 2. CALCULATONS METHOD 2. Dose Equvalent Calculaton f flux denstes for neutrons and secondary gamma rays havng energy E at a locaton r are represented by 4> n (E,r) and 4v(E,r), the dose equvalents for neutrons and secondary gamma rays are represented, respectvely, as follows: H»(r) = J [H n (E)/* n ] x * n (E.r) de. (2.) Mr) = J [ME)/4v] x <ME.r) de, (2.2) - -

.JAKK D.-f ('ext- 9 (MM where [H n (E)/<> n ] and [H T (E)/$ r ] are the fluence to dose equvalent converson factor for neutrons and gamma rays. n the present work, neutron and secondary gamma-ray spectra were calculated for 55 groups of neutron sources from. MeV up to 4 MeV wth ANSN-JR 6 and HL86R n the pont sotropc geometry of water, ordnary concrete and ron nfnte shelds. Tables 2. and 2.2 show the calculatonal condtons and the atomc number denstes of the materals. For the [H n (E)/* n ], the lcm dose equvalent converson factor for the CRUsphere phantom presented n Table 2 of CRP Pub.-5 T> for neutrons below 2 MeV was used, and the maxmum dose equvalent converson factor for a sem-nfnte slab phantom lsted n Table 23 of CRP Pub.-5 for neutrons over 2 MeV up to 4 MeV. For the [hv(e)/<v], lcm dose equvalent converson factor n Table of CRP Pub.-5 for the CRU sphere phantom was used for gamma rays less than MeV, and the maxmum one n Table 4 of CRP Pub.-5 for a slab phantom for those greater than MeV. The dose equvalent converson factors used are summarzed n Tables 2.3 and 2.4 for neutrons and gamma rays, respectvely. 2.2 Neutron Cross Secton Data, HL86R The macroscopc effectve cross secton HR86R s a revsed verson of HLO86 neutron cross secton 8, of whch energy group structures of neutrons and gamma-rays are gven n Tables 2.5 and 2.6. Among them, 3- neutron groups less than 9.6 MeV and all of gamma-ray groups have been replaced by the data collapsed from JSSTDL" group constants for takng nto account self-sheldng factors. The JSSTDL s a group cross secton set of 295-neutron and 4-gamma-ray groups based on JENDL-3 cross secton lbrary. n the prevous work, a group cross secton lbrary JSD"* composed of -neutron and 44-gamma-ray groups has been used to calculate the attenuaton data for neutrons less than 4.9 MeV. n Fgs.2. to 2.3, the attenuatons for a6a Cf neutron source were compared between HLO86R and JSD lbrares. The energy group structure of HL86R s more sparse than that of JSD, however, the results are n rather good agreement for every materal. - 2 -

JAKK Mr -Cudr <M (KM 3. ATTENUATON FACTORS AND FTTNG PARAMETERS 3. Attenuaton Factors of Dose Equvalent Attenuaton factors of neutron and secondary gamma-ray dose equvalents n nfnte water, ordnary concrete and ron shelds are represented n Tables 3. to 3.6 for monoenergetc neutron sources from. MeV to 4 HeV. n Fgs. 3. to 3.6, are shown the examples of the attenuaton of neutron and secondary gamma-ray dose equvalent for st group(4-35 MeV), 5th group(3-25 MeV). 9th group(2-8 MeV), 5th group(-9 MeV), 22nd group(5-45 MeV) and 29th group(22.5-9.6 MeV) neutron sources. These fgures suggest that the attenuatons, n general, become smaller wth ncreasng neutron energy and approach an exponental one n deep penetraton. 3.2 Fttng Formula for Attenuaton Factor t s useful and convenent to approxmate the attenuaton factor wth a functon for the pont kernel code PKN-H. Thus, the attenuaton data were ftted to a polynomal exponent formula gven by the followng equatons, Hj(r) = exp( Fj(r) ) / 4wr a, (j= energy ndex ). (3.) where Fj(r) = 2 m a N raj x r" ", (m= to N*l ). (3.2) a N Mj : "-th coeffcent of N-order polynomal for j-th source energy. Accordng to the systematc survey n the prevous work, N=4 has been chosen n ths study, as well. The parameter set a^v determned by a least square method are summarzed n Tables 3. to 3.2. The reproducblty wth the parameters determned was examned for st(4-35 MeV), 5th(- r l MeV) and 29th(22.5-9.6 MeV) groups n water, concrete and ron. As seen n Tables 3.3 to 3.5, the fttng error for neutrons s very small except for thckness less than 5- cm and the maxmum error s almost wthn 2 % for every source and sheld - 3 -

.JAKK Dntc-'Codc M (KM combnaton. For secondary gamma-rays, the fttng- error becomes farly larger, especally n the regon close to source because of steep ncrease of secondary gamma-rays, but t doesn't ncrease monotonously wth penetraton depth. 3.3 Extrapolaton of Attenuaton Factor The attenuaton data, ntally, have been calculated up to the thckness of 4 m for water, 8 m for concrete and 5 m for ron wth the ANSN-JR code. Whereas, the shelds thcker than these thcknesses have been often employed n hgh energy accelerators, especally n proton accelerators. Thus, the feature of the attenuaton was examned n deep penetraton concernng the present attenuaton data. Fgures 3. to 3.9 represent two knds of attenuaton length changng wth the penetraton, where sold and broken lnes show the attenuaton length obtaned by fttng the attenuaton data to an exponental functon devded by 4n r a and a smple exponental functon. n water and concrete, the attenuaton length shown by broken lne approaches more quckly to a constant value, whle n ron the sold lne converges faster to an asymptotc value. These results suggest that the extrapolaton s better to be made based on the dfferent fttng formula for water, concrete and ron, as follows: Hj(r)~ exp(-r/a o J ). for water and concrete, (3.3) Hj(r)~ exp(-r/a o J )/4ff r a, for ron, (3.4) where A O J s the attenuaton length for energy group of source neutron j, determned from the attenuaton n deeper penetraton, where the attenuaton length becomes almost constant. Namely, the attenuaton length for water and ordnary concrete, and for ron were calculated by the followng relatons, respectvely. For water and concrete, and for ron, / U J = - ln( Hj(r o ) / Hj(r») ) / (ro-rj. (3.5) - 4 -

JAKK - tote/code 94-3 / k O J = - ln{ r o a x Hj(r o ) / r x 2 x Hj(rx) ) / (ro-rj, (3.6) where r o and r represent two arbtrary dstant ponts from source, where the dose equvalent attenuates exponentaly. Subsequently, the extrapolated dose equvalent Hj(r) s gven by the followng equatons, for water and concrete, and for ron, Hj(r) = Hj(r ej ) x exp(-(r-r CJ )/A O J ), (3.) Hj(r) = Hj(r ej ) x exp(-(r-r CJ )/A O J ) x r CJ 2 / r*, (3.8) where Hj(r ej ) denotes the dose equvalent at the penetraton length r ej (conjuncton radus), whch s calculated by Eq.(3.) wth the parameter set a N raj for source neutrons of j-th energy. n summary of the above descrptons, the equaton ncludng the extrapolaton s gven by the smlar representaton as Eq.(3.). as follows: Hj(r) = exp( Gj(r) ) / An r 2, (3.9) where Gj(r) s gven by the followngs, Gj(r) = m a N roj x r "" x 6 AT) + ( bj x r * g(r) ) x 6 _(r), (3.) e AT) = { r ej -r - (r ej -r)} / 2 x r ej -r, (3.) 6 AT) = - AT), (3.2) g(r) = ln(4/r r a ), for water and concrete, (3.3), for ron, where a N mj: fttng parameter set(m=l~n) r ej : conjuncton radus bj : mnus of nverse of attenuaton length k <> J (bj = - p / A J o where p s densty). - 5 -

JAKK )atr,-('dc!m OO.' n ths work, the attenuaton lengths for the extrapolaton have been calculated for MeV to 4 MeV neutron sources usng the data of to 3 cm for water, 6 to cm for concrete, and 35 to 45 cm for ron, of whch the data aren't affected from the outer boundary. n Tables 3. to 3.2, the values of bj obtaned by above procedure are lsted together wth the parameter set a N mj, where the r CJ s the conjuncton radus for the extrapolaton. The attenuaton length for each ncdent neutron energy s summarzed n Table 3.6. 3.4 nfnte Medum Effect The present attenuaton factors have been calculated n nfnte meda. Therefore, the dose equvalent obtaned usng the data becomes overestmaton comparng wth that for fnte ones, whch are rather realstc shelds. The correcton factor, namely "nfnte medum effect" C H (E,r) s defned as the rato of dose equvalent H(E,r) behnd fnte medum to dose equvalent H-(E.r) n nfnte one at the same penetraton r by the followng, C(E,r) = H(E,r) / H-(E.r). (3.4) To estmate the nfnte medum effect, the H(E,r) for fnte thckness of water, concrete and ron shelds of 5, 5, 3, 5,, 2 and 4 cm were calculated for energes for 4, 2,, 5, 2,, 5, 2,,.,. MeV neutron sources, and the nfnte medum effects C H (E,r) were obtaned usng the data as shown n Tables 3. to 3.9. Fgures 3. to 3.5 show the 3-dmensonal descrpton of the nfnte medum effect vs. source neutron energes of. to 4 MeV. The fgures show that the nfnte medum effect changes smoothly wth the source neutron energy and the penetraton. Besdes, the effect becomes constant wth ncreasng the penetraton, whch makes possble to do the extrapolaton vs. the penetraton. The reflecton of neutrons n ron s sgnfcant, and the nfnte medum effect attans to.23 at 4 cm radus for neutron source of 4 MeV. However, the dose equvalent H(En,r) for a sheld of fnte thckness s estmated wthout serous excess overestmaton usng the data of C H (En,r) nterporated for source energy and extrapolated for sheld thckness. The correcton procedure has been added to the PKN-H code. - 6 -

JAKKJ-Date/Code 94-3 4. DSCUSSON OF ATTENUATON LENGTH So far, the attenuaton of dose equvalent for hgh energy neutron source has been represented as a product of exponental attenuaton part and geometrcal attenuaton part /4* r a, H(r) = Ho x exp(-r/a.«) / An r 2. (3.L) where X, lt s effectve attenuaton length, and t has been shown that the value for concrete s ndependent upon the penetraton n the range greater than 2 g/cm a thckness. ' As seen n Fgs.3. to 3.8, however, the attenuaton length X up to 4 MeV neutrons depends on the radus up to farly deep penetraton, and a lmted value X o of the attenuaton length has been determned by Eq.(3.3) for water and concrete. Therefore, Eq.(3.5) have to be wrtten usng the attenuaton length dependng on the penetraton radus as a followng, H(r) = Ho x exp(-r/a (r)) / 4x r 2, (3.6) where X (r) s equvalent to the effectve attenuaton length at radus r. The nverse of X (r) at dsance r s defned as the dfferentaton of -ln[r 2 H(r)] vs r, and subsequently t s related to X o for water and concrete as X (r) = X<> / ( - 2A o /r ). (3.) Eq.(3.) suggests that the attenuaton length X (r) used n Eq.(3.6) for water and concrete conssts wth the attenuaton length X o where the radus s enough large to neglect the 2X o/r. The attenuaton length at r = 3, 5, era and nfnte dstance n water and concrete are compared n Fgs.4. and 4.2. The fgures represent clearly that the attenuaton length n water and concrete doesn't becone constant for neutron source at least up to 4 MeV. n Fg.4.2, other measured and calculated data are also compared together. As for concrete, Thonas et al. o> have recommended the effectve attenuaton length based on the calculaton by Alsmller et al. * and Wycoff et al. ** and the experment by Glbert et al. 3>. Alsmller et al. calculated the attenuaton of dose - -

AKK ktw/cutv 94 3 equvalent n 5 ft(= 62 cm) thck concrete n plane geometry. Therefore, we have made addtonal calculatons n the sane plane geometry to verfy the present data, and compared t wth the Alsmller's data. The comparson has been made for 4, 3, 2, and 5 MeV neutrons, and both results were n good agreement despte of a lttle dfferent atomc composton of concrete as demonstrated for 4 MeV neutrons n Fg.4.3. Thomas et al. has evaluated the attenuaton length from the calculatons by Alsmller et al., as shown by a smbol + n Fg.4.2. o> As seen n Fg.4.4, however, the attenuaton length s stll changed sgnfcantly n the range calculated by Alsmller et al. and the values agree almost wth the present attenuaton length at 5 cm radus calculated n sphercal geometry as seen n Fg.4.2. n Fg.4.5, the attenuaton length o n ron are shown wth other data, where the broken lne shows the result obtaned wth HLO86 cross secton. We have already ponted out that the effect of self-sheldng factor n resonance energy regon below MeV s serous for the dose attenuaton n ron, because the dose equvalent s domnated by neutrons less than MeV n deep penetraton even for several hundreds MeV source neutrons. 4 * Fgure 4.5 reveals the dfferent cross sectons gve a dfference greater than 5% to the attenuaton length. The present attenuaton length n ron, whch was calculated wth H.86R cross secton s constant from 4 MeV down to MeV, and nearly equal to the measurement value for 2 GeV proton ncdent at KEK 4>, although the value s larger than the measurements of Howe et al. 6> and the estmaton value of Stevenson et al. o>. 5. CONCLUDNG REMARKS A lot of attenuaton length has been measured and calculated n context wth the Moyer model T> for neutron sheldng n hgh energy accelerators. n the model, the attenuaton of neutrons above 5 MeV s represented wth an attenuaton length whch s ndependent upon the energy. The present study made clear that ths specal feature sn't satsfed for neutron sources n the ntermedate energy regon up to 4 MeV. Shn et al. 8> have calculated the buldup factor of neutrons n a slab geometry of concrete and ron shelds for 2 neutron energes froa thermal to 4 MeV based on the multgroup cross secton DLC-8/HL **, - 8 -

.AKH- Date/Code 94 3 and proposed to represent the atenuaton wth the buldup factor and the removal cross secton whch has been assumed as total cross secton n the same sense for gamma-ray source. Ths dea s physcally rgorous, but the values of buldup factor of neutrons are strongly dependent upon the enprgy group structure of cross secton and vary largely wth the energy to reflect the complcated feature of cross secton. n addton, the absolute values become very large, whch have already been ndcated by the present author. The authors, therefore, have calculated the attenuaton data n water, concrete and ron wth a pont sotropc geometry for 55 neutron energes from. to 4 MeV based on the revsed cross secton LO86R. These attenuaton data were ftted to a 4th order polynomal exponent formula havng an exponental term for extrapolaton to facltate the applcaton to a pont kernel code PKN-H. ACKNOWLEDGEMENTS Authors express ther grattude to Shuch Ban of KEK and Kazuo Shn of Kyoto Unversty for a dscusson of attenuaton length. REFERENCES ) Kotegawa.H. and Tanaka.S..""Attenuaton Data of Pont sotropc Neutron Sources n the Sheldng Materals of Water, Concrete and ron",jaer-m 9-4(99),(n Japanese). 2) ORNL-RSC Data Lbrary Collecton. DLC-5/JSD-/2. 3) Kotegawa.H. and Tanaka,S.:"A Pont Kernel Sheldng Code for Calculatons of Neutron and Secondary Gamma Ray lcm Dose Equvalents: PKN",JAER-M 9-48(99),(n Japanese). 4) Kotegawa.H. et al.:"neutron-photon Multgroup Cross Sectons for Neutron Energes up to 4MeV: HLO86R -Revson of HLO86 Lbrary-", JAER-M 93-2(993\. 5) "PKN-H".JAER-Data/Ccde 94-xxx(994),(under preparaton). 6) Koyama.K. et al.:"ansn-jr:a One Dmensonal Dscrete Ordnates Code for Neutron and Gamma-Ray Transport Calculaton",JAER-M 6954(9). ) CRP-5:"Data for Usa n Protecton Aganst External Radaton",(98). - 9 -

.AKK Dnf "...t- H (l(:t 8) Alsmller.R.G.,Jr., Barnes,J.H. and Drscher.J.D.:"Neutron-Photon Multgroup Cross Sectons for Neutron Energes g4mev (Revson )", ORNL/TM-98K986). 9) Hasegawa,A.:"Development of a Common Nuclear Group Constants Lbrary System, JSSTDL-295n-4 Based on JENDL-3 Nuclear Data Lbrary", Nuclear Data Scence and Technology, p.232, Sprnger Verlag(99). ) Thomas,R.H. and Stevenson,G.R.:"Radologcal Safety Aspect of the Operaton of Proton Accelerator",Techncal Reports Seres No.283, AEA,Venna(988). ) Alsmller.R.G.,Jr. et al.:"sheldng Aganst Neutrons n the Energy Range 5 to 4 MeV",Nucl.nstrum.Methods,2,23(969). 2) Wycoff.J.M. and Chlton.A.G.:"Dose Due to Practcal Neutron Energy Dstrbutons ncdent on Concrete Sheldng Walls",Proc. 3rd nt. Conf. RPA(Snyder W.S.,ed.),Rep. CONF-39-P,694(93). 3) Glbert,W.S. et al.:"966 CERN-LRL-RHEL Sheldng Expermet at the CERN Proton Synchrotron",UCRL-94(968). 4) Ban.S. et al.:"measurement of Transverse Attenuaton Lengths for Paraffn, Heavy Concrete and ron around an External Target for 2 GeV Protons",Nucl.nstrum.Methods,4.2 (98). 5) Howe,H.J.,Jr. et al.:"n the Sheldng of the External Proton Tunnel Area of Argonne's Zero Gradent Synchrotron",ANL-23U966). 6) Stevenson,G.R. et al.:"determnaton of Transverse Sheldng for Proton Accelerator Usng the Moyer Model",Health Phys.,43,3(982). ) Moyer,B.J.:"Evaluaton of Sheldng Requred for the mproved Bevatron",Rep.UCRL-969,Lawrence Berkeley Lab..Berkeley(96). 8) Shn.K. and sh.y.:"buld-up Factors for Medum Energy Neutrons up to 4 MeV",Radat.Prot.Dosm.,4,85(992). 9) Alsmller.R.G.,Jr. and Barsh.J.:"Neutron-Photon Multgroup Cross Sectons for Neutron Energes g4mev",ornl/tm-88(98). - -

Table 2. Calculatonal condtons Table 2.2 Atomc number denstes unt(*vcm 3 ) Code ANSN-JR : -dmensonal dscrete ordnates transport calculaton code water ordnary concrete** ron Cross secton lbrary Number of Energy Groups Source HLO86R* 5 : ( P B ) effectve macroscopc cross secton neutron 66 groups gamma-ray 22 groups pont sotropc 55 monoenergetc neutrons ( from. to 4McV ) H C Mg Al S K Ca -e 6.638-2* 3.3369-2.385-2.542-4 4.592-2.2388-4.49-3.662-2 4.625-4.525-3 3.45-4 8.4869-2 Sheldng materals Geometry Flux to dose equvalent converson factors water, ordnary concrete and ron -dmensonal sphere ( S B ) E > 2MeV Maxmum dose*' neutron E & 2*leV lcm depth dose**' E > lomev Maxlmus dose* gamma ray E lomev lcm depth dose**' densty (g/cm 3 ). 2.2.8 ) JAER-M 6928(9). ) type 2-a concrete,anl-58(963),p.66. ) read as 6.638x"* ) CRP Publcaton 5(98),p.39,Table 23. ) bd.,p.36,table 2. ) bd.,p.26,table 4. ) bd.,p.22,table.

Table 2.3 Flux to dose equvalent converson factors for neutrons Table 2.t Flux to dose equvalent converson factors for gamna rays Flux lo dose equvalent converson factors for neutrons Flux to dose equvalent converson factors for gamma rays Neutron energy Maxmum*' dose equv. Neutron energy lcm depth"*' dose equv. Gamma rays energy Maxmum*' dose equv. Gamma rays energy lcm depth"" dose equv. (MeV) (lo'^sv cm 2 ) (MeV) (" J Sv cm 2 ) (MoV) (-! Sv cm') (MeV) (-' 2 Sv cm 2 ) CO. 4. 2.. 6. 2. 5. 63. 58. 469. 45. 425. 2.. 4.. 8.. 6. 5. 4. 3. 2..5..5.2.5.5.2....oxo-".x"".xl" T 2.5X-* GSO. 6. 52. 446. 4. 4.. 383. 38. 4!). 38. 352. 362. 34. 258. 26. 69. 35. 4.6 8.6 6.2. 9.2.2.4 8. 2.. 4.6 24.3. 8. / u. 5. 4. 3. 2..5..8.6.5.4.3.2.5..8.6.5.-.3.2.5. 25. 8 2.26.38 5.43 3.32.5 8.4 5 6.96 5.96 4.28 3.38 2.88 2.38.88.8.893.62.53.53.52.64.86..846.43 ) CK' Publcaton 5 (98).Table 23. ) bd..table 2. C.KP Publcaton 5 (98).Table 4. ) bd..table.

2-3- - -3' -3' - -3' Z -3' 2 - -3- P -3' p - *3' *3' - *35' *35' - *3' Z *3' Z - *33' Z *33' Z - *3' E *3' E - *35' E *33' E - *3' t- *M t> - *39 p ZZ 2 OZ G 8 At 9 5 H ET ZX 6 8 A 9 3 p E 2 *39 t- - *3 - c *3 3 - *33 3 *33 S - *3 '9 *3 '9 - *33 9 *39 9 - *3 A *3 'A - *33 A *39 "A - *3 '8 *3 '8 - *3 *3 ' t - *3Z *32 ' - *3t *3f - *3 'Z -3- - Ao-aon-t- A-3H' P - 9-32- 9-32' - 9-38E' 2 9-38E- Z - 9-3W) 3 9-3f>' S - S-3A' S-3A- T - 3-392' Z 9-39Z" Z - fro-3- t--3- - t-o-aot-s-p t-o-aot-s- P - EO-383- EO-389- - E-33E-E E-39E- E - E-3 E-3- A - ZO-33 2-33 - 2-38 2-38 E - ZO-399 2-339 8 - -39-39 - -3t'2-3t>Z lo-aot-e -386 A E 8 2 E p 6 z z E p 2 - TO-aOt'E E - -386 f - -3Et> o-3oet' A - T-3A -3A 6 - *3 *3 - *3SE *39E - *399 *339 - +3Z *3Z Z - *39t> *39t- z - *3 *3 'E - *389 *389 - *36- *36P f - *36' "3 *36t- 9 - *3A 9 *3A 9 - *36 '8 *36 8 - *3 *3 - *3ZZ T 99 39 t-9 9 29 9 9 CS 89 AS 99 SS t>3 ES ZS S OS 6^ 8^ At- 9t> Sf> H> Ef Zt- Tfr Ot? 6 BE AE 9E SE t> o*aozz- *3SE- *36 ' *3SA' *396' *3SZ - Z *33- *33 *3 *39 *3 *3 z z O*3OSA' - O*3- *3' E - *3SE *33 - *3-P *3 p - T*39t- *33 p - to'3'3 T*3 9 - *3S'S 3 9 9 A 8 - O*3S - *36t>' - O*3OSA- - *396' - *3SZ'Z - *332 - *3SA'Z - *3'9 - *33-9 - *3'A - *3-8 - *3'6 *3 6-2*3'! Z*3-2*3- Z*3 - Z*3Z- 2*3Z - Z*3f Z*3V - Z*39' 2*39-2*38-2*38 - Z*3'2 2*3 z - 2*3SZ'Z 2*332 2 - Z*3S-2 Z*3S 2-2*3S-2 2*3SA z - Z*3-2*3 E - 2*332 2*3SZ E - 2*3S-E Z*3S E - 2*3SA'E Z*39A - 2*3'*' E ZS E OE 6Z 92 A2 92 SZ t-z EZ 2Z [2 2 6 8 A 9 S P\ El Z 6 8 A 9 3 f E 2 o3u X3JOU3 dnojg 33 ue dnojq 33 ue dnojy 33 UB a X3J3U3 dnojo jo Jo jo dnojs

( ' JAKK Dalv-'C'dc Oll.' Table 3. Dose equvalent per source neutrons and attenuaton factor of neutrons n water (/) DOS! QUVU* AND AMKUlU tllla H URON B C f. H ). T.f Al t J At. l.o 9E 4 Of.48 ' t. J '.AM 9 t. laf 9 6 4 '. /Al 9. Ml 9.46. Ml 9. lof 9.*h('.J* ( - Ml.?t on.m 4.. 9.A *.4 '. '. 9.9 4 Jl./ 9..4.??!. J( 9.OF t.4 '.".4(.9 8.66.4..?U Q.O AO.O... 3. 4 3. _,.6.3. t t t.6 ( <.3 F ' 6 ( * f - M r o 9?B( 4.6T 3.4(.fll,,.6..6,,,,M.) 9.6. ll 4.4 J.J or.9.'. M.. nt DO -.ol 9.B/( H.4 a,9bt 4. lof. 4 t - 3./F ". ".Mf..48F. fo. t AC 9.J.. S n. Tb. lt. 'AF 4 OF B? nn.oae 9,?f 4 f A 6 4M. 6. r H t, 6 f t ot BO.O vo.o. 3 J 44f- T 6 W 4.4 J.Ob r 6 3.9 9t.B /( 6 6 9 4M? 4! ot...... 66 J 94( 5 8J 3 44 J t 66 t tr J ot, H l.66f.s t.(.o J 4 3 3?*( Wl ftftl ot t OK B( 3 <9 9. f J»F. 9a 3 Of.Ml t». * 4 *9f? ft. OOf 9 t. Ml J 4 8 ".6 3 to tot. ;? llf 6 J flof ' ll * 4, ; *n T9 A 6* 6 ( nt?. J <O.O 9 OO.Q.... JOO.O 5 6 6 6 /9. 69. A a. 3. JB Ab / 9 4 3 F 3 4 4 4..Ml. Ml. 4 Ml h 6 h! hl 4l ), M l <!. 9'tl * 3 *. R,3fat '. 6. t.* b.an. t 6 6 t*\ \ Ml h Ml 4 *'l ft OA n: o. sbf,9 < ( Alt.. ' U >M. 6 6! t A q 9U OJ t OJ 4?M 4 ol 4 Ol ' wr 4 49 6 fm t; tr 6. 44t s f'l «All B OM r>4 46 H OS A Table 3. (Contnued) (2/) DOST fquvatf Ml A " A"! HA KN F AC TOP *. AM,>.4.6 3. 9.9.4./ '. 9F. j.4f.3f«4.9*-. * 3. lt.tf» 3.9 «.J6.4.4F»f> J.T.4l«8.9.F'OO l.mf.jco.. ltl 'OP tl.* 9.3 B.63C l.to. 8.3 C? n.3t o..?w. ru. 4.9 9.MF B. 9,J9(.HtO r.oot n.' 4.ftf M K»f' J.Ht-.'.9E.(. E 9.OK.;«r n 8.4flt o 9.4U? '.B9( T. Ttl J. JU ; 6.pr o t S.tH S.JJt».9l 5.TOF. l.falf.9.k.b8e S «.lt( OJ.ff tj 8..m-! o 9.bo r.ou 4..Uf W.9 4.. U.OSf 4 o.. 4r 9 A.4 6.* ( H. 6.lAf ft.^ 4.?M U J.4 C4 6,p«r r j.n 4 j.6?( u.«j 4 3.8 -f. T9 4.M W.6 *. Ml B *.B3t! J.U 6 l.j«f 9..H 6-4-

.AKK -Dale/Code 94 OH Table 3. (Contnued) (3/) **o AKHUAHM FACJan > unt a (6. 4.) (4. H'CH) H All, H HCtOlM! HtUtKU* NERGVNfV) 5.4E-OB 2.3E'OO.JE-Q8.33C*OO.35E-8 2*33<E*OO. 2.2JE9 l.49 < 2.9EQ9.49t<!.U.«?E* S.'?. 4.BAE-.?9E* 4.T4F-.9f< 5. 3.2-.2kE» 3.9H.?4f. J.) <t. t. (t. -!G.QBQt (. *f. H A. F H Atl.F H JO. ).f 2.HE 9.49F'OO 2.E-.«9E*.tE- t.jse'oo 4,HE l.zre'oo 4.4/- l.?re»oo.sk t.je'oo 2.8E.2' 2. ME-.2 E-.?.* -. >.98E l.te>.92e.9f*.b'co.l*e*.«-.*e«5..4fc -lo t.lt'oo.*e-. ff'. J6E.lE*.33E-.JE'OO.9E-.E* 5. OE'OO 9..BC-ll..2-6.8E *.E 2 6. 2.5E 8..84E- J.*8E.E J.33E.26E.8.9E.*tf 9.24EU 2.2E- 9..JE-2!.tE l.? -! J.OOE.OOE?.O 8.6 U.TE- /.?* 3 l.l*e-l 2. l.?jfl?.29f 9.9?l J Z./E fl.obc.je 6.B*(- -9C.ME-J.k!E-l no.d 4.8E-J.JE J.ME- ].58E MtF'l!.JC 2.J4 U.2E.8SE3.9EJ 3. >OE k 3.2OE'O >45E~J loe-.obc-t3 45/E'O?.2/E*4 5*?O *Q2 4.2E-4 39rE* JO oo.o j.rcc-t4 4.ate o??.«je-m?.»*f O? \.?bl'q2 l.kc-4.be-o f.r4 -J t./re-oj SOO.O f.*?el l.jte roo.o J.J4f-6.UE-OJ )..4TE-t.rE-4.2kE-t? LTE-4.TM-W t.he o.o s.jn 9..8E. 4.EH./E-9.lOt Ok t?. JOO.O.2OE9 >,llt-2 2t l.t.h- Table 3. (Contnued) (U/) SE EOUVALfH! AND AEHUAON FACOH VAUft QlAl NtUtRDM NClOtH NtUHON HERGV(flEV) \T RCK H AT,T AtT.F H AT.f. 2.6E-?.4fl.O 2.3E9.48E- 2.OOE 9.4E* 2.HE-9 l.he'oo.ae-*.4 E»OO. 4>3SE'O.2kE* 4>2/ -.5E* 4.8&-.24 * 4 b - 2E*QO 4.JE - t l«ze* 25. 2.k8E k l.2oe*oo 2>kO -.3E^OO 2j53E-tO.E* 2 54C'O t 9E* 2.4E-O *4(^ 3..8E-.5E«./E-.2E>.66E. «O t.6)e-.e*o.5te-.te* J5. l,?*f!o t.qvuqo.)9 l.otffoo.f -.4E<.4E.OE'OO t.o -to «.E-* 4. 93OE k.e* 8.B3E-.OJEtOO 8.4tE'l l.ooe^oo 8 ^E't 9./3E- T 8k f -t 9.48E- 5. S.3T.E 9.6E 5.U- 9.4E 4./*E B.rkE-O *.?* - S.3E-».J U.UEOt.Q 3.?E-t f.62e-.99e- f.loe-.83e- 6.6t.E k.ae-ol.he* S.ltE-Ol 9..3ft! 5.8t- 9. BE-2 l.*e 8.3E- 4.9E-!.k9El?».*5t't 4.R2C-2 4.4E- 2. J.96E-2 4.4E J. J.94E-2 J.WE.fl?.MfOl 9. 2. -4, JOE J.5kEt4.E? *.»Jt t l.l»f * l.o*e 4.CEOt 9.HE-* 8..( 4.98E Oh.8E 85. J.8 9 2. 9.8-9..J9E 9 h.tttl- 3.t-. l.tbe-2.j8e? J.C J.22E 3.?tO* 4.J9f?2 J.U 9?.6l!.?»[.?C-f J.t^t 2? l.«t 9 r.«?l. K -.art 3.oto.nr?.otf t t,.\%\ T. ;.4t u -5-

JAKk! Dl (,-' (.',!, 9,' Table 3. (Contnued) (5/) NCDENT NEUTRON FNE RGV(Hf.v>.2E OB..JZE- H Ar..-8 J.JH'OO Aft.F 2.5E'OO (( * f f. f!.?».s6e- s.o f.tt o.joe* oo r. * at - D.? )[«oo r.u- to.be<oo. JOOOO -. WE'OO.29E> o.)*t*oo O.Q.5E- O.O.J8E 6.JE?.!«H b.&.9«n J.JE l.fje 4.BTE.JE.6JE-. *.Ot>El. E.9 (../E 2 2.HE..88E-2..6E JO..JOE- 2 l.bfll.54j-?.rot-o.4f? l.jbf-ol.m-.o*e 8.&2E U 9.Ml? 5.3«3 6.U-'.«flt- U f.4et J.JE U *.JE-.6EO2 J.EJ. BE- U r.ovf 3 5.b4E? u J.o J?.?.U.bOEO? l.obl.js.e4..jt4.ljeo?! «4. JE n..e».69( H 9.E *.JE 4.9«F b.8-6. JOt / b.oje.«f r 8.4«r t l.obl.f8 l.wt H.et 6 l.jqf 9.R...9 J.J9E.VE B.l4l On *.uot. >.O. -,?.*4l-».W..' H.tot r*? ft 6.9M.F.4 ft - V.bbf.Ol. Jh H b.,wt. 9?J. 4..nl? 9. o?.?u?!.m o t.ur-4 h.mt ; J.6U?.H- l.vh?4 r. t Ml.9hl!.H /.OOF t 4. Jht ft. Nl?- a.?o?.ml b.so 9. t..»t f,?.99t J 4,*f?T.Ml 4.4-/.9U?h.S J.B?n >.b. 9. h( * l.b.'l?l >. J.. ll."*. Jl - f. 4./4[ l l.b.fl*l d 3.-4[?. not n.... f 4Rf f9f 4M. nl bu m 4 b?«to 4 9.8E.6.9[.99.<HE. *.*H b. M Table 3. (Contnued) (6/J) DOSE LQUV4LEN AHO ATLHUAT UN ACOH B<CN) H Alt,T..28E8?.5E'OO..9E 9 l.me'qo. T.lOl.ff *. J.F-.?E«25..9TE 9.8E JO.O.2t B.5/ l.bfle l.u'oo. Ul 8.UC AT. M.f 8 2.SbE» : 9.U-.Ot'OO E l.he'oo.84f 9.Jt <.6* J.4E.E*.(,6 8.4<lt-.4J.llt?.6*- 9.4 6.ME- r.l[ S.2E 4. J.44E -.VJE-O 5.. J9E 4.TU bo.o. m - J.t o.le.j/e.9e./bf 9.4E-.»3f- J.6E?./ 8. J.JE 2.69E- 2.SBE,.3?t.8BE 9./.?E 6.2/E-O?.8: - 3.4E' 9..BE?./EOl.JF? 8.6 9.E J b.of l.llf-ll (,*E??.*H 3 l.bol'..e 2 H.O9f- ".?6t J l.fl?l? 4.69E U.T9E?. 6-.E-?.?tlJ. J8 ( 2. J.6E-U 3./4E 2..B6F-U.OEO Z.F 3.4.5E 3.',bt-Z,4?t-.SE OJ 6.fl*«EJ,83 J.H.ort- J. b.he 4 t.}u t l.jof-4. HE - J.ftJE-4 2.2E * %.**l 9o.o r.?4e-n!.oac OJ. *.28E 5.3/E OJ 5. 3.bE- b. WF 4.9)E l.llt 6 t.?t * 5..8F lb.e4.8c-* J.5E5 3./EU.9C4 5.UW l.llt 5.HE * b.ok-o?.?b(-r r.«r Ob 5.(2E B.BbC Ob ].<[ <.9E-O/ 4. 9.bt l.ftf OB.3E-.JE.E?.8 B.JBt-? 4.2F 4 l.:f 3.3F?S l.uf? '..6 - b.e.b/e? 8./ U l.??l?b b.obf-4 l.l?t 4,Jfl(,t - JO 6.46t - H.T\l l.bol.slf J4 8.* -? vnr??.?t-4!..*4 o.*of.b9t- 4.<flE-b 8.56 l J.Ut. /O.9»E /.4 3 *.H.9 -Jl /.bbe 9.J.b( k.4 J3.95E? J./4-J/ l.mlt.bbl-.m,?t -. /bl 4,tj[.. 4.MF?. J.4-.-4...99FJ/.BE 4 MOO.O.U J9.lbl b J. n.ht -6-

JAKR- Dale/Code 9-3 Table 3. (Contnued) (/) A ON FACTOR W NCDENT HfUROH [Nt*GV(NLV (.SOO - M.flOQ <CR) H AT.F m l J.44t-Q.2)- J.DE 2.OE- 2.9 E.2E-H 2.34CO 45..35E.26t-.- tl.94e l.ooe.e.tot- 9..E.4E? l.lbe-.se B.4E-4 5.2EO S.9E-4 J.JE 3. 2.JE-M 2.bE-.48E-. E OJ. HE-*.UEOJ 4.JC-) 4.4E-4 4-5.U-* 3.O9E-4./t fc.2oto* 3.43E t.svt-4 wo.o.?c-t* J.OE-O 29 2 3 4.JE! J.JC 3.!.*?!.6.4??, JE- J5..rC-3J t.me- H J.Jt!*?.!».?f-?l. * f -J.C?).Jtt J l.4fe 4 J.»4( J*.*f-3 *.9Tl-\».l?f??.4E Jl l.ooe- 5).a J.J4C-J J. m - *.44-J2 4.E-.TfU 4.J4(-J!.!??) 4. ].*U-33.4E2,«E» 4.4E.SE 3V.99-J. J.4E-J 2.3/C24 H U M 4.6 ).C*O.4 K-?? J. l«-4? f,ooe-j*,-4 4.EJO. r.nt J9 3. JE 24.59E 4 t.o4t-2l ).»»E 4?.R9F.OSt 43..4C-4).(E )? Jl.5E-44.OJ l.4-»( l.lbt.99e-. lt-39 t.4?f t.?4(- }.lot*>?.j*t-*t 4 9). noo.o.«or.3ot 6b Table 3. (Contnued) (8/) UK MOM FftCOB / hattr / TOTAL ME U RON ( 8.9-6.) ( 6. -.4 9 H AU.f H KT.r ft<ch>.f H AT.* H AT.F E'OO ).StE-9.8E*QO ^.t<tf t.tte'oo Jt U 2.32C JJ.O l.»4f-j.4e-.e.e?..je-2 4.94E.5E J. 6C? 6.44f ll l.jl D? T..OSE ) 8.EO3.3E «.2*f-3. 9>E -3 t.he-3.94e 4 l.«?e-. l.lf -J.l*f-OJ. 4.E4?.(,UJ.lt 4.WE \.J8E4 6.F \t l.*lt-. 3.9bE-) J.lftE4 UO.O.2E S.26E-* 8.F-.4E 9 l.ooe-? l.*4e-.3t. 2.5 2EO.OJt-J??.» 2.E 4.4F-.43E-2 J.Jfct J.6E?], 4E.9E-4 l.oje 9...E?S J.JE3 J.4*E-2b.Ut- 2. 4. 4.C- O.OOt'OO Q.OQE*.t* O.OOE'..UE-J4 J.*E HO.a l.8j tb.aof J4 9.9.4E 48 K.bbl n.89r«9.je- J* O.OOE'OO O.OOE'OO O.ODf' O.OOF't 8..4)»9 4.6E 3* 4.OK.M JT.2 t 4.8 J«O.OOE'OO O.OOE'OO O.OOt'OO O.OOE'4 8..8E~ll l.le~j8.lf-^ %.O 4 4.4E')4?.lf 4.^ O.OOt^OO.* *t*^ 9..AE 4 4*tC'4t 4B/9(~)) J.3E 4?.)f('54 f. V4f. 44. QQt * f * D.Ot*OO..'^..AE-5 9.8-4 4.9.2 M.6E B.9 *) O.OOt- O.OOE'OO D.OOfOO O.OOfM..86 V t.w 44 l.olf d fl.*d( *b J.JE 6 ;.))[ %! O.OOE'OO O.OOE'OO.- O.OOfX JOO.O 8.\f j t.om -. l.lf bd.r 9.DJ?o. rt \b j.?t n».??( o.oot >oo o,oo(' o.oot >oo o.oo»oo - -

.AKK )MC/C',,CC 9-3 OOSt EQUVALENT trnu*l!oh facor Table 3. (Contnued) (9/) NCDENT NfUBON 5..86 4.f) 3. 5.8F.9Bf ) 2.3E- B. O? *.t 4. 4.6E-J /.?f OJ 45..lEU 2.98E OJ.E J.J8EO3 5.BSE-4 9.2H-4 4.»6E 4.Ht OJ.J6C 4 3.2EO4 2.E- * J.JOt-* 5.E 5 *.*8F 5 8.B6E -5 9.lt U 8.9C- 5..EO* l.flle 5 6.5OE.6E 6 LJH6 J.9E- l.jk-6 *.?E'S. f l l 9..BE 8.5E..JE-8.J*f 33 2. J 4. b 5. 8. 4. 2. JJO.O JOO.O..55E *.3U-?.ost.6E 3.6JE- J.5E 5.E.5C.Jt 2 J.H-.64E- J.6JE- 8. E b.bf J.?Bf 3.4 4,b/(.os 3J *.4-3 5.9t 3.4hE 4.93E b J.4J f.6- J.B6?6.OE-8.4E 9.9E-J.F-JJ.-8.Uf 4).9E 6.9E S.6E ot n.be.e n. JZ.? J3 T 34. 4. loftoo O.OOt'OO O.OOE'OO.* O.OO < O.OOf > O.OOt' O.OOf >Q 8.J9EJ 8.44( Jl. lot-j*.je JV.4 4 l.*u- k.lqt,- f rtf.fltl.4(.b!f-!.9(-!.?/!.64( - \J*f O.OOE' O.OOE * O.OOf' O.OOt' 6, O.OOE'DO O.OOt'OO 6. O.OOf *.* roo.o O.OOE too O.OOE *oa O.OOf' O.OOl> O.OOf'OO O.OOE'OO.'.'.t* O.OOE'OO O.OOl'OO O.OOf' O.OOt' O.OOf' O.OOt'OO O.OOt' U.(*. o.oot* O.OOf' 9. 95.. KOOF'QO ).t' l.ooe'oo O.OOf ") O.OOF'.' O.OOf - o.onr <oo.>.'. > o.oor T.C> o.oot>oo O.OOf «O.OOf'. o.oot. ' O.OOt ' O.OOt' O.OOE O.OOF' O.OOf' O.OOt' o.oot >ou O.OOt O.OOf' O.OOl'OO Table 3. (Contnued)(/) fl(ch) H AT.. 5.. 5. JO.O n.o 3.9TE?.B8L.86E - 5.J6! - B.OTf 3.?E - 8.J9f?.?E? 4.BE 3.DJE 3. E 4 5. 5.*8E W l.j3t 6?..9E-3O.8E 9 9..8U-J.3Of?..46E3*.4E U 3.5BE. ME 3.4ftf - B.?Of 4./f.98f o;?,?f V3 4.n?E 3. 3 t.l -4.".H 9E * 4.J6F-. 5t Ob 9.95E.9JE?.3U-J l.s.r l.ojt-?* l.ofll.'. 5?.OE 3.4OE l.bse? J.J9E OJ 8.3 5.?JE4 \t.8jeo be? 6.JS- B(3J.F- 2.C.9E 3.5B-J 4.4C?.J-E? -*9C u.6?. Tt-?.6J!.* ] 3.8OJ «.Bt-5 8.E 5 J.J4E-S 9.J9-5 9.4E 8 J.66E 3.4E 3.J9E. HE-?*,M[ ] 5.6"- W J.fcJl 6-8 -at.j4-9 t,lte-ob.49e? 3.8OE 4.84?3 r.l3f-l. 9.Of 35.6F-3. 4.J8E- 6.OE b 3..5'E -?8?.56t O.OOF'OO O.OOE'OO O.OOE'OO O.OOf'OO..6E JJ.Jf JJ 4. 3 O.OOE» O.OOE' O.OOE» O.OOt >E* O.OOC^' O.OOf'OO. «J. O.OOE'OO.< f' 4. O.OOl'OO E'OO O.OOF'OO O.OOE'OO O.OOt. O.OOt> O.OOE'OO O.OOt'OO.* O.OOf'OO O.OOf' O.OOE'OO O.OOl'OO O.OOEH O.OOf' O.OOf' O.OOf' O.OOt»l O.OOE'OO O.OOE'OO O.OOt'OO.H 65. O.OOt'OO O.OOL'OO TOO.O O.OOf' O.OOF'OO o.oof'oo O.OOf'OO o.ao-oo O.OOf- O.OOt'OO O.OOE'OO O.OOt' O.OOt- O.OOE'OO O.OOE'OO O.OOf' O.OOC'OO O.OOt'OO O.OOt*.* O.OOt' 9. O.OOf' O.OOt > O.OOt' O.OOE'DO.> O.OOf* O.OOf' O.OOf'OO O.OOf' D.OO'. O.OOE'OO O.OOt'OO. O.OOL'OO O.OOf' O.OOL' O.OOF < O.OOf' O.OOf < O.OOf > O.OOf'OO.* OOt uoo.a o.oor*oo o.oot <oo.' O.OOL'OO O.OOf' O.OOt' O.OOF'OO O.OOt ". ' O.OOf*' -8-

' 9-f -3 Table 3. (Contnued) (/) Att.F.fcJCOO '5..9f - JJ J,»»f -J.SM J».»E OJ.UU. Jf -! r.*8lo? 9.b*t - U.?6E- l.??f l.jbe-2.hc-j.3je-o? O.O.ME-.J2EGB.59E.69E. 2.OE 9.S9E?! O.OOO B.9F.-.. J.9E U.OO.Q4E-?* O.OOf'. U-J* O.OOf' l.ooell 4.JC3 l.ttc-'.)elz.3c?*.9bc-. O.OOf' O.OOf (?. O.OOCQO JO. O.OOE'OO O.OOE'OO O.OOE'QO O.OOE'OO. «O.OO'OO tso.o O.OE*O.* O.OOE'OO.* O.OOf- O.OOftOO 9. O.OOE'OO O.OOE'OO.*.* O.OOE'OO.' O.OOE'OO O.OOE'OO *(^ Q.OQf' O.OOf>.ft.* O.OOE' O.OOC'OO O.OOC'OO O.OOt'OO O.OOE' OOE' OOC'OO O.OOE'OO 4. O.OOf'OO too *O. O.OOf'OO fso.g O.OOE'OO 6. O.OOE'OO 8. O.OOCOO 9. O.OOE'OO 95. O.OOf'OO OO.O O.OOE'OO...* O.OOE'OO O.OOCOO O.OOE'OO O.OOt' O.OOE'OO O.OOE'OO O.OOE'OO O.OOL'OO.* O.OOE'OO. O.OOE'OO O.OOE'OO O.OOE'OO O.OOE'OO O.OOE'OO O.OOl'OO O.OOL'OO >.(' ).F< ).C*O J.OOt'OO ).ooe<oo O.OOE'OO O.OOL'OO O.OOE'OO O.OOE'OO O.OOF'OO O.OOt' O.OOE'OO O.OOt' O.OOt' O.OOE'OO (.OOf' O.OOt O.OOE O.OOE O.OOE O.OOE O.OOF Table 3.2 Dose equvalent per source neutrons and attenuaton factor of secondary gamma rays n water (/). ft(ch) N»n.f ATt.F H Atl.F. *.UE-? 2.O5E-OJ 2.QBE OJ 4.5E-??. 3f OJ 4.ME??.?«-3.*«E?.H-O. S.6E-J».?( 4.HE-3 l.ooeo! J.?4f J.JE?..5 3E - J 9,4E-OJ.E J t.joe.wf 3.JE-).4*t -.«E-J.4-3 MO.O B.UE-* B.J2 J 33 34 3 3ft T Jt 39 *o 4 *J «4 B. 4.J2E-4 9. J.tat 4. 3.5E -4 2..4E-M JOO.O?. * -!» J!.!E 3 6., B. 9......fflf \T.2E \T 3.4JE 2.4E..«S tb..3*4 b.,*.bt -.2E 5 >.WE 6.o?r-6. r«? J.Uf B.rE s l.fbl 9. E >,HM. M l a. 3 * 6 6 B 9?t.-t U.b?F B.4t>{ B 4]t 9 ).( t.obt 4 OS 6 Ob.2 at lb T.,«.t F.Obt? B - B» bvt 4. th 4 *. Jtf t. E *. HE.. n 5 Ob?. t. ME n. * t.. sot 9 9. B4( JO,J«(OJ?:"[ 4.9E 6.3OE 4 4 4-6 6 Ob -9-

.JAKK Dale-"(', ],. M OOH Table 3.2 (Contnued) (2/] ts.o l.otf- ( J.ME-OJ 4.4.88E OJ S.. JS.O.8.E-? b.sbl OJ,8 f? b.-»f OJ t S.U OJ.*E OJ 8.O OJ T.btE-CJ.U-O5 9.SC-J 4S. e.obt-u 9.4JL OJ 6.-3 S.JE OJ.9* J.OH t.qseu.dte 6.. ao.o.?.fl( J.OJt-? 2.lt.- J.-?.ME- J 9.8SE OJ J.6f-J.ru u.- J.66E J.Qbt? J.J6f.OSt? '.b8[ t.o?f?.o/t.h-g? J..O;E?.O'jf -?..OH? ), > Bt J.ll J.OEU.?.bJE U l.obe?.e U,?t-.S4t -J l.uf -?.JL.DF! l.obt.? SOt 3 9JE OJ -.o.o r.!jt- 6.HE OJ. 4 6. 'bt U.6M - M 6.64 -!?U 4 6.6(3 fcfl ' 4 l.»*c -OJ Q.?.*Jt - )*.*J OJ.^9 4 S.4t UJ,ll; >. J6..8F 4»./( JOO S.B JSO.O.Tl 4..9E 4S.C.C J.4 6 SSO.C.rat b.t\t OJ. B?f!.-. St * J.lt 4.E-4 K.t*l S?,.St OJ.J S.9F <JJ Ml ft lft t.lle 4.4t d 3.b8( 4.68E.(,6f 4.4. S?.»lt! S?.Bt OJ.9J.B( Of j.r^-* t.rt-o*.4( * 6 l..'s *, 9).OK 4.4 U '.OSl?.4-* b. 4 9.44.a o*.44.?{-os l.jat 4 4.4f t.lot «.6.4 - /?.F- / f.. U OS.bl.lot.' J.f os a.j' 4. os.m.4. '. S.'tS.6t OS B.t :«;.bt 3.99! B.4 BSO.O 4.QC 9..9C- 9SQ..lt r.trt t.onl Oft?.?l 9. JOt Ob J.?lt /.4J.4?n. JJ Table 3-2 (Contnued) (3/].U-J. J 4 - l..'st OJ t'o. an. r -?.E3.".9'f.J9F 3 (.!?.4St-J 3.J2F..SH-.9E-2.SE?.2U-? l.ooe- S.9t U 6.8JE 3 4.-)U-J J.SOE S.J6 9.DE3 9.99E3.-? J.E? t.ut?.sftt.6f l.ojl l.ut l.ut? S.b9l 3.OEO W."*l OJ.f-O.OFO U t.!e. F- S..OSl?.3F.U-? 8.H.ZJF.J) -.SE B.m-u. ] l.ejf OS.ant J.SE 3.bl- J.9CU.5U U.E J.4E?.HE?.6E-?.? t ).4?E J.SE-3.F-J.9E 3.4? 9.B4E GJ 9.4E OJ.8E? l.«l.-.sot.o^e o?.s;t.9eo.(? -J.OJf? 4.6 4-OStOJ.OOF.6JE-.?./?. S.H- 5 t.uroj t 5.5?E 4 4 J.SJE OJ.6SE S. OJ «.MF-S J.»»-n.Qbf S S.J-S l.)9f OJ t.u 4 3.?4l *.SOf-4.6E- 4.BE 6..OtE-. r E 4 t.sot-.ut 4 4.',l'l V.HS J. S.tDt OS.6bl- / S.4SES l.sj ].?f OS T.OOF B.8. or 4.E 4.BSE OS.JJ OS. OS -HO 3. : os ).O OOO... 3.'. HE.3 M S.bkt S.8U.J4T.OHt 4.JOt J.SJC J.Oll «4.4? B.flO? B.OJt 9.S.'.'??.l\f 4.b4l-.HB.J.4-OR S.M.4»( n.4c 9 B.'lht 4.SU?J \.?S\..SOt?.J«t /.tt / J.4F? f.rn.«[ J S.S or. 4.44E OB.9Se OB *.SE 9.-. 4..'t 4., n -2-

.) AKK - totc'/codo 94-3 Table 3-2 (Contnued) (4/) 9? ) H Atr.r H A.r 9.4JE 2.5 3 9.6?.EJ. 5.5E?.96E 5. 3.9SE2 6.3BE 4.4E.43-4.4E.4»E 3..T2E.E?.SE-?. SEO? 5...J5E-?. 9C-Q2.3TE-2.2E??.29E2..4E?.J2EO..*f l -9E-2 3.JOE?.?E J l.jjeo? Mf-S.4 E 2 8. 2.4H-3.2E.JSEJ l.l 2.9E J.OBEt.?.3E-3.E 2. WE-3.4E-2..BEU 9.6E.2OE3 E.r. 5.2OEH 6.3EJ».6f-4 S./fOl 4.rt - J.H-! j.m-).4oc-:?.roc-os.3e 4.4E-J WO.O.E4 3.6E.5 Jf 4 J.F OJ.JE- 4 2. HE 3.5E S l.heoj 8..J E * 3.tBE-.6E 4.T4E OJ 9.BBE-S 2. J6t S.5E-S.JE3 9..6E-4?.rSE.8JE"t Jt-OJ.44E ).98f OJ 2. 8.BE-J.Bt 6.E' *!«-6 4.3C-4 5,D.S3ES.E.9E.. 5..b 4ES l.sc-r V. l.me 6..?tE 6. *.be t» S./E JJM 9.8 Of 4.l6t 3 S 3.26EO4 S.J6(-9 l,*f 6 2.E 9 l.osf.e-o 9.4E-6.l\t 9 S. J8L-O 6.St-.9E-T?.(*(».9?Cl.E- ].3E 8 r.t!e.8eo 2.JOL?.BE-O.t*tO8 S.E.6(- 3.JSL- l.ue-m T.tt- 4.8tE 2.66C-.JE-.49 J.8E-4.K- 8.ES 6.9E S.3-6 5.2E3 J.96f? *.JO -«Table 3.2 (Contnued) (5/) OOSF EQUVALENT AH ATENU»f!OH FftCtOfl 5.) AT.F 45.) AT.F 4. - JS.OOO) H AT.r.8E t 2.MEO3 ( 35. N.6E.) AU.f 2.HE 3 5. 4.SE-2 T. T2E-J. ].3E.E 3.J6E?.4E 2.9E-?.E-? 3. 35. 4..86E-.44E2-5E?.2BE 2.34E?.4E?.44E- 2 t. 4 -.lot.35 2.4t 2.88E?.44t? l.l*e?. M.?.4?E?.9SE-..49E-?.4r-?,m-o? -4E-?.«Jf-? 2.6E2.4C-O2 t.ssf 2.5-?.)«[-!?.49E? SO.O to.o..5ej 4.69-3 3.E3.36E?.9-?. E 2.o/t- 3 4.-.at- J 3.3E-.36E 2. 2.ML -? b.98c 4.48E 2.9E 3 3 3.3SE -.?st.me -?.O2E- 4.38E-.8F.3TE-?.3EO.E-?.9E.4EO? 4.3EU.JE.69E-.64-9..4EU a. 9t.3*F J B..W OJ.6 J.BBE OJ.6E.SE3.OtE fa.e! 3.3E 4.9E 2.BJE 4.U Of SO. -?E- 4 2. 93E 3.4F 4.SSE 3.24E-U. 6E 3 l.oot- t. 6E-3 r.4 F- S.J6E OJ. SO. 8.6E-5 6-3E-S. 9JE 3..JE S.b3f 3 5.9E-S.J3E OJ 4.SSE-.on-oj.3E- S.S4C -o«.s6e- S SO. 4.89E-6.28E4..49E-t.O2E-O4 3SO. 3.3E J.O9E-O5 4..34E-8 S.9SE-(> 4..66E- 8.SC-6.9SEU.8* 5 *.4F M 6.9F?.- 6.8E 4,^6t- 9.«6ES.l4f-6 6.59E 5.O9F-.*9f -5 J.63E 8.SF-6.49E-4.39E J.4E - fc.?u OS blo.o 4.69-.5EK 8. 6.»H?J 3.4-.OJF? J.JTE 9 t.me.6e 8.t.4L 22 S.-? l.sfcf 4 4.S3t..6JL-S.OOE-2 9.6 ft.bt.4f 5.S3? 6.E k 4.93-2 -

AKR Dale/Cull. 9-3 Table 3.2 (Contnued) (6/) < O.ooo RUN) H S.O l.jtf- All.T?.5f OJ.«5E n :.9jt All. l.jf OJ.JF-.JOf *n.f Tl-.O/? +.8-?.56? 5.55E.«?l! 5. so. o.»9e?.t«t l.»*e.sje? J.U-?.( J.6-?.B? J.J6E l.me- J.T5C 3.*OE-3 l.?*e 3.59E..V.E?.tt-? *O..2F!.5?»5. 9.9E J.*BE.2E-?.56!.?«?.6E.6C-.kJ-O? lt? 9.TE U.SH 9.9E J.SC?.ll l.j«(o? 9.?«-l3 4.JE J.-? t.85e. E *. 9.j?[-S.*9t-J..5OE- 5.E5 J.9'.94E-U.»ES!.9»l 9..5E- l J.U-*. 6.S9E-6.9 * 3.9*f b.8(* 9E-O.5-' 5 5.J E J t,]?r OB 6. l.rl! «.96-9.6 flf 9 Jt.9.9E 9,5f??...HE *. ^bf - 5 J.bBt?%a.o. n -] t.«ot o BOO.Q 8. ^4t -? *. JW ) \.ltt R5..HF? 9. b. ttt?5 «.3fF 3. '.bbl?b.sol U oo.o ".ost?r.* J tu,8m t.j*>. 4 *.ltt U *.fn 4.,'f *?.f..m,68?t,9.;'vt?». flt U.t?,»rf J.* J.8E b.n<l?4 l.t,(.!,*«?* l.ftr?.bbl J5 t.jt 4.9K?b *.(».'.l J Table 3.2 (Contnued) (/) DOSf fojvarht -M(D AUtHUMldN MC OH / fcatf HC Of HT HfUBGM fhfbcv(h(v) ( l'.oo - *.9OO K<.C* H Ar.r 5.56E.BE 5.E (.tl(?.3. JOF.[-O.?Jtl.9(.M.Sbt S. fl.ac.be.6e-!.*t? ).??t-ll :.J*E.o- u.wro? b.stt J.36t-! f.. l.sot- U.*t.- l.?eo f.3l - J.5Jt? J.»E-.bf-.*F??.UE t.s*t t.at *.69t-U l.*?e-2.ou.sle-o? 9.5AF U.66E /.*?E.5B! 6.5-3 l.»»e J.S9E. U. lt 2.4bE.Ob 8..H-J 5.6E OJ. 9E b.jbc OJ,tflt ]?,9fll- J 6.5F OJ.*- \.fof-us..te-* t.ltt OJ J. T.TSt-S.8E no.o.ot s s.boe-o* 6..9E-5 t.ote-ok. t.tje-?.9«t-».u-5 J.tbt -*.U t.5 JOO.O.E T T.STt Ob.T9E-W l.j»e-^ J.!E?.<Jf OS.j?r-w ).o;t o 5. 3.OE-8.UF 6 J.flAE- B ]. >/! 6.9E.JOF-6 5.H H 4.!."49l 8 Ml 6 *. *.65E 9 S.("( Qt «.9? - 9 J.9 $ ).b«e-a.k 6 5.r*t-9.85f-or.?rt-»!.?ot-or?.9E-.8 8 t.trc-?..'?to» boo.o.66e.55f «.E Ot 6*. M.TZ.E- l.ut 9..Wf!? TSO.O J.U-2J doo.o 9.E-* *.»E-J J.rl- Z.U-Z. S.?.n\t tt.bf?«t.t*\ J l.fcf?5?.b! 95..2 5.bb( 6.5 5 *.5tl l.e-r».9 5. F? r.?u!l 5.9M U. t.69e>?6 5.5«f tj. l.ltf b.«u.lt b.8je J.8»F-?(j 5.9E J& -!.?«' J.«5.»n?*.*rr u l.lbl.f *. 6.5 -B?.B«f - 5 f. 9 «.9<E * JOO.O f".5l.' *. \.5C OJ.5TE- -22-

.JAKK- Date/Code 94 3 Table 3.2 (Contnued) (8/) R(CM [CF.KT KEUtROH 3 *./ >.49. l.9f.6jf 5..lot.EO? 4E.65 Alt.(.oc n.96*-j l.lf- *.b oj.tat-2?.*e-o? 3.*9f-.99E3.J*f U t.9«t?.e-.4eo? 5..t +. -OC.m-oz.65F?.O5E-?.4-?.4E!.«9?.5E U.E? l.jtt-! 9.H-3 l.55f <.J?f.56-6-T.K3.4E- 3 5.U. HE 3 4.fcl(- J. E - tj 4.9E-QJ 9. 4.&K-* J.J3-3..6OE-4.J9E-Q no.o.6sc *.rocos.e- U.6 3 t. ut-c./f l«. f 3.E-.WE.4*-5 J.5E4 a.ooe- 6.Mt-«?.?«t 6.9E-*.6E-U.46E 4 JOO.O J5. 4..29F?.?tf-OS.OBE-2 4. lt O.OOfOO.t«.JE 4.Ct.* O.OOC'OO.*.' O.OOE* fso.o.e 4 4..<t-?4 OOE'OO O.OOE* OOE-.OEH * O.OOE» ' O.OE* 9..23.<.OOE'OO..E?f 5.9BE-U?.J*t 9. 4.uf S 4.?U5 *.OtlO. Z.**E 9 3.JF lb.3e uoo.o J.SOE -3?.;r w.jp-» r,or!» l.">4t??.-.ooe'oo O.OOt'OO.- O.OOE*. OOE'OO O.OOE-.(< O.OOE' o.oot>oo o.oor-oo o.oor«oo O.OOE» Table 3.2 (Contnued) (9/) ). 5. 2 '"! - - ATT.F.6E! H < E -.»,! t.e A T.f 2. E.,.,.F? H l.?bf All,F '".WE -.9H 2 E?.9E.6E. E-. E -?.9*.E?.3E.OE 4. 3.on 3 98 E U.. E 3 3 9Jf -.3 9.6E -3 3.89 OJ 8. *.<)ZF- * J.E 3..SE-4.8E 3 5-Sjf 4 J.m.K..8E4.8EJ.9-3.b«( 3.E3-4 3.5bf 3.6VE-l* 3.4VC -4.49E 3 3. *?.*4t * - JE 3. Tbl *,?E *"t 5.E- 4.?.4f 5 J.«E-4 5..?E-5.64E 4. U-5.6E-O4.6E-5?.59t-4.6* 5?.54E 4.*-5.4(* 9. l.sof-6 5.8E. B.9E 5.5 E 5..3E-S *.»E 3..or n 5.3«35. -[* O.OOE 4..«O.OOE 45..* O.OOE O.O O.OOF'OO O.OOE'..OOE'OO O.OOE 5. O.OOf' O.OOE BOO.O O.OE*< O.OOE.OOE'OO.OOE'OO.OOE'OO O.OOt'OO.OOE'OO O.Q(> O.OOF* O.ODl'OO O.OOt'OO.*.OOE'OO O.OOE'OQ.OOE'OO O.OOt'OO.OOE<.OOE'OO.OOE'OO.OOE'OO.OOE'OO.OOE'OO O.OOE'.OOE'OO O.OOE>oo o.oor*oo O.OOt'OO.DOE'.OOE'OO.*.4C t *.9tf <.53E- l.oe O.OOE'.ODE' O.OOt'OO O.OOE' O.OOf' O.OOE* O.OOf O.OOE<<.* O.OOC'OO O.OOt'OO O.OOE < O.OOf'OO O.OOC'.OOE* jte*4.ooe'oo.ooe'oo O.OOf * OOf *( O.OOf'OO.OOE'OO.OOE'OO O.OOF*^ O.OOt'OO O.OOt'OO O.OOf<QO O.OOE (. OOE'OO O.OOf:*.' O.OOE < O.OOt'OO D.OOf* O.OOt'OO O.QDf'f o.oot<oo o.oo(*oo o.oof'do o.oor*<..* O.OOf' UOO.O. tqo O.OOf' U.O O.OOf * O.OOF * O.OOt'OO O.UO' O.OQt'OO.-.*.OOE'OO O.OOt'OO O.OOF > O.OOE' O.OOt'OO O.OOE' O.OOf' O.OOE' O.OOt'OO.OOE'OO O.OOt' O.OOE' O.OOt'OO O.OOF'OO O.OOf' -23-

.AKK 9 Table 3.2 (Contnued) (/) lost tqulvalk( 4KD llnualon A. *.9Jl..9..?bt tl o?.?jt J.J6[.BBE.. bf '. J.E 2 l.tff J.?*t-?.<m? l.fol-o? l.-m-? l.ju-2 l.wf?.3? a.6 l.fe? S.6E *.bl- l.oyf? *.»( -QlE U '(.lt-?.bje? BO? a.he u.^se o? BLOT,. K U.J6E?.? T.9 J.F- 3.JE-O.JE? l.m-.? r.m-oj l.at-w.eat u s.«ot -u.ut-ts.*»u u.e-j../^f- «.6 OJ O.OOE'OD.[* O.OOE'OO O.OOE'OO. OOt'.E«J. ],JU5 HO.O.ltf. 3. ft b. E ' 8..3BE-6.** 9..4E b 4.9 O.OOE- O.OOC O.OOt'OO O.OOf> JO.O JOO.O O.OOE' O.OOC 9S. O.OOS ' O.OOf' >.> Table 3.2 (Contnued) (/) AltENUA!l)N fflc NCDENT H(CH) l.o,^h 6.?.9- J.O.m - a?. l.*ft? T.2\. J.o. bo.o BO.O M. Bf.m. l. * >?. "ft <?.-.9 *?.fl[ Klflf?.9F >.*E 4,.*F?.4»t-?.9t?.W.HBE.?Jf t.m-o.ut-.3.t t.st-o.oar.4f.9 O VJ6E? J.89t S.?E?. Ul? *.6E l.»o > tt -? *.?bl.l 3 8 9 o:.at S m?. Ol o:.? u j.nf..b9t u 4 Oflt?. bdf. 69E. t 6. E.n n a.m-o s.*t? d.ar o BE -?. E -! 3..4E. B" -J. 5. JBt 4 >.!«o.o o.ooe'oo o.oat'. O.OOr^OO E* o.o o.oot'oa a.oof'oo no.o o.oot'oo o.oot'oo o.oot*oo O.OOf>Ofl o.oot *oo Q.OOl' T. O.OOE'OO OOE'OO O.OOt'OO OOF'OO 9aO.O O.OOf'JO O.OOE'OO D^OOlr'OO.OE*OO 9. O.OOE'OO O.OOE'OO O.OOt'OO.* ;oo.o o.oot*oo o.oor*oo o.oo -oo o.oot*oo O.OOE- O.OOf' Q.QOC'OO O.OOl'OO.OE*O O.OOE'OO.OOt'OO.- O.OOE'OO O.OOf'OO O.OOE- O.OOf' O.OOl'OO O.OOF*O O.OOE'OO O.OO O.OOf' O.OO O.OOf' O.OO O.OOE'OO O.OOt" O.OOt "3 O.QOF'OO.*.* joo.o o.oof*oo o.ooe' o.oor*oo o.oot*oo.ooe'oo O.OOf< O.OOE'OO O.E*OO O.OOt'OO.F*OO OO.O O.OOF-.OE*O OO.O o.oo-oo a.oofoo O.OOt'OO O.OOE'OO O.OOl'OO O.OOf ' O.OOE'OO O.OOt.' O.OOt O.OOt'OO O.OOt" O.OOE'OO O.OOt'OO O.OOC'OO O.OOf< o.oo'oo a.oot*oo O.OOt'OO O.OOE'OO O.OOt» O.OOt'OO O.OOE'OO O.OOE'OO o.oor' O.OOt'OO o.oo*oo.' O.OOF'OO O.OOF'OO o.oot'oa O.OOl'OO '. O.OOt* O.OOF'OO O.OOT >.' O.OOl'UO O.OOt'OO O.OOt'OO.* O.OOF'OQ O.OOE'OO O.OOt'OO O.OOt'OO.* O.OOt'OO. > Q.OOt *>.' O.OOf' O.OOt- O.OOE-OO joo.o o.oo-oo o.oo-oo o.oo' o.oo- O.OO' O.OOt' O.OOt' O.Ool *j,*?e- 4-24-

J A KR )HU</( 'ode 94 3 Table 3.3 Dose equvalent per source neutrons and attenuaton factor of neutrons n ordnary concrete (/). DOSE EQUVALENT AND ATTENUATON FACTOR - (4. jn.ooo) RCCHJ M Atf.l. l.?tl OS.BE<. J.E 9 l.tof. *..JE-9 l.th'oo no.) Alt.f.* 9.bOt'OO.E9 l,m«o <J. H J.BE 9.E 9 H.) JlJ.f.nt-oo,OE*OO J.?Ot 9.*B 9.)»J!.f.MF'OO.E'OO JOO. n.oo>.9 9.6 l.jbf 9.*-. 6.lOf- to.9e'. *.8E.9?C<4 l.vh'oo.9u <. )![.OE'OO.4/F o.tu-oo 3.HE.9E*OD.E.QE l.tff* 4..B6E-..5E-tO.E- to HE-.66E-.J6E.9E.?E-.6.E-Q l.he'. f -..BTE-. 6.SC- 2 to.o «,r»f-? fo.o J. foe- l.?9(<.2*.m»oo.*e».6- ft.«6t-t r.*u-o 6.WE.6 4.9EO 9..)[- *.6t-l ;oo.o.m- j.ut-o..oft!.sje *. b.aot- l.flt- 6. 4.L-!.4C-?8..68 J.O^t JOO.O.fn )} T.ft E t?.9e E-J J./ E- J \.% ll 9.t?E J.tUOl J.l»t. rot.6e ' ).!( J.4( l.\n J l.9*f.ott J.*H J.9E J. UC t.9t J.-.ltE? J.l*f- t.?(?.**c?.?tt J.bE- *.«lf U.*?EO.t*rJ.E.6*t s r.jvtoj..? O.O.8.. 4,4E 8 4.9 J?. J Sf 4.4 *. * * ( a. m - o.ol -.(-».! t.jc-.4?e-4 JE. 8E «*.8t W j.mc u «.»8l- \? j.oor? t.vtf-*.-o>.mf tt B.84.E 8 J.99E 6 J.OJ 9.H 6 Table 3.3 (Contnued) (2/) A NEUT HUN 6 8 9 R<CM) H. F... J*E 9 *. 8 9F.. 5?8f to b JO.O 3 bff to J. bff S *. OF 9 «.»t. f. * f6t " bl. b J6E n., J t b 8. BE M.F.ff.9F.9-89F..8.8. fbe >.Ml. -HE *.*or.je. H.JOE-9,S?t.9F.JE -WE -9!F-.4E.HE.?6E-.OH.* -jr-u AT.f.88F -9E.9E >.S9F.8*,/9F -./bl ftfll.l.n.9e J 8,E l*f 9E -lf.*te 8E «E F / t bt -(,( f 9 (,, ] B9F.9t.9F.B8E 8. F TTf m.66f. 9, ATT JJ SE.F no < H E 9 '.3*E - K. TM. o. BE - Z.6E -.F JJE.E.H -.8.DE B8E AT,r.S9F..9 '.9E '.tt.8.?*.rof '.6.«[.n,9F «.b*t.9e.9e bf T 8t J M,E 9F. SF E 8'f ft 68E f n n -\o n u n t ].SS.9,.ABE.S*f TTf. F.ftlf.bt AT.F.TT.Jt.:T.E» 8 9. 9 >!. >.. Z?. ;,, 3.F BF n.br.k.4h.8e -.*- -9E-.6E- E-. *E.E.OOE a. "E bf sr n DF l.ol 9 BF E ot -.99.b6E.»E.96E.*. 9.6BE 9.E 9 BlE E n 8E n E :n 9 Olf nr 4 *. 8 8.. C t. *. J. Bt J bq.. HE * S.O. Ml 6 JO. BoE. 8f u u J 4.JfE.fF S.*E t.j9r?, ".6E- -ll -.9F U.9E l.9-.?e 4,E.4 ft.f.6/r.t,t? J9E ( ft.v ble 9 B6E bt J * '«8 9M * 84 JO..JOE 9E.? ( J.J4E J.E 4.?»( *.E-,?H a.*9f.mf?.ooe?.? \ J t 9?f :E *E St OTE F 6) ' n ] u n t J ; 4 ] fce not E OF 99 fr 9F /t? OJ. 6.( 6.( t foo.o 4 M.( }. JU 6 t?4t ' f t. Ol 8?.?n S..or.*Bf -OOf, lfl 4 4 O Ufa.ffcl lb. 9 ;.6U f t.qttt M. tt -. :o 4. u 4 t.8 O..'. * 8 6 8 B(? * / J f 8 *) D *?t k (?F OJf OAf tb * Oh? -*9f W T -F 8?.?F 6. tbl.ftf.9t[..4 * Ob Ob M *B -. 4. ; '(.,(. J9( 6 u \ S a 9.n 4 -OE * 5.6OE m S6 Ob M Ob -25-

JAKK l)at(vtn<lr 9- (KM Table 3.3 (Contnued) (3/) NLDtHf HfUfHON RCC S.. 5 JO. J5 <t ; H 5t 8F?lt 9 All...6ft.TT(.abt '.af 4* 98E. tt 9 All.r,b'F. *(tf '.8..'6 2 4J Ml Bat Qt 9 Of All.bSE.. >n.rn Ot) H.4 UF.8.?6f 4 9 ( All.F.68.m./ t,tat *? at W( h - All.( 54t 9.eot'oo lb( 9 l.bm ' - n -86(*.BOt * *.?««9 s 5 9?t tl.6*..f oo.«a *.-.at.sh 8 Q9F JSt.s?E.t*t.*t.96t.4/.J9E ^ o?t -.46E > 5S( t.j4(.? bo 5 «5f 4E s J6t.Jlf * Htl.JF.. -bh. fl. J5t t.> 4 to 5 rs 6 8 H 9 95 3 n 4 25 ;t f 8?f? JO Jl??O JJ 6 a J* 8 S ]b JSO T 4 Jft tso to 55 t 6 t bso j J '! A TSC E bbl JTE 4E W( stt " 4 Ohl u ' t??f J( " f 8 8 6 «s JSt! /t, 9 bl 'OF 4 Ol J.'l ) h?l J J.!.'( J 8 J " * tf> 8..ol QO.. fl 5.Htl J t A.t«t.4 nt :-u or o ] 5f tt lt b6l ; R llt,'t( J J 4 S 6 R 9 -Ol.4?E 8.hH b 9 *. JM./.'Ml 5 SV, l, -??. 4».8J(.4 t - bll BOf OH ;u t u S t. } > 9.ME 8.a?F 6.-jJt. J( J.OM J.4](. R nj.tt.. n tl <4 OH ;. Ml, 4 n. b?t Ob *E 4S( R9 '»( V tj }! J t t U tb 9 9.U8 5.4H l.ot J.Tl 9.? 5.5 t.j OT.54.5t ( r.tu 4.4M 4 t.«4t on Table 3.3 (Contnued) (K/) H 4HD M'FHUAMN f.htoh!:ja s-lhox / n! >?o Rl t«s.o. H 9.?er 9 9 ATT.r.bbt.b9l CO 9. SE. F 9 4 AT.b'l.9F. H Olt 44 OB 4.,.Olt.3» OflF. on 9 AT..8E. no 4( H./F..jnt Oft 9 A,,.?l.HOF 4. 6. J6t.M b. :t.an D( 6 tof.fflt.,«, S 9B(..'"»f ) > SA 6 JO.O JS.O j ;. SO.O S5. 6. t». s.o RO.O 9%.O.(>4E.Bt JOE lot?l Olt ; J«l 46t to. oc.6f f?l»oo.m oo 4 F oo R J9! vu b rot.stl.m.??(.an -Ohfc 64??r,.6t>f -4L.OTE (. S«ll h ;J J ")*t ' OQ ' Ul ' Ml Mr US -o m u '. to.t>h!,*s 4f OO.Olf "9 b b \ Obt 4[ ] t6f - 6H 4 SE,,.'lf t( OJE!.bSf Ml.fl 4 b snt 44 bt 4 6/E JS -MF «f ] <ttf, > 6 f? OOf? J4?.6 Ol.46 t.m?t no OJl»<l <.4t 6 BM lt - \. E ct 4.t HF ot J rbt.?. rat 4B(???8E ^6E J qot ME 9F? ff 6.'?! :u R? nf 4R 84 M! nt?4t ( 4 4. ) 5. 6 6. r n u. n., r % 4%E 4[ 4F JJE U J J j, 9 / S SSE E.'t m 4 F ot a tl SBE j 69F *".[ b JE J J J } U h J?F 6t nt bt nst?? b 4 : jf J q 4TF 6 s rr nt J } m? J \ 4 J /4? > JM Jt J 'll Uf 8 rsf 4 T \ 4 NM F lt??, 6 n 6S( 64f?f J9( 6 J 3 t *? t4f nt.'t??f or sbl.? ' J J 6F T K ' 4 a? jr 4 46 bt '* OK?! j 6S( 6 4 26.. j Jf 9?E J JJf O?*f 5 ) SS O tn n, OJ h t4f * h n 6 X /6 4 * 6 n. 4.) a tsc., 8»? t; *n t / f 4 9 lt Tl 4f Ot OS O :%E 6 toe H s tflf B? ol 96 6W Ot % 4 9r 9.'( u w n R? 49 Ml %»l OS OS Ob \ 9 r b Uf ll /. * * t ' 4 Ml n OS Oh Ob, M(? nj r lt 9 * *?( JU a\ flh ot 6. j roa. t?(.' ' 5f 8 9.M R. 96 f,«.. Uf t >\. 6"[?. OV U?. *bf. '?. 4 * Of b. n..!??!.. b4 % 8 H. on. d 26-

JAKH Date/Code 9--. Table 3.3 (Contnued) (5/)?. 5.6BC-. HE' 5. J.*4r.b*E' JO.O.E D.5U ' 35..*f -.3E<?.ae o.of«oo.jf- l.jt'oo.u D t.boe'oo.ff D l.se*.99e.j")('oo./t-o.zre*oo. f!.?«(<.e. «.4- l.e» 65..95EH..4<E- 5. EU 9. 4.5/E-.6EO. 2.64C-T.Q 4.5(?.JSE J.6J -. 3.4(.9JF?.5Bf-..9E-? «.C UO..2E-J 4.9E-?.klC-l.55E-.9E U.6E 4.JE 4 9 5.98E 4.JE 3.E4, 8. 4.44E- 4.Of 9. J.E * r.*bt.,6te- 4 5.O5E 9.8E- 5 J«E 3 4.5E- V. 5.4E' 5.53 QJ.4 5 6. *f 5.44E f l.< 3..9F-t.ft* 35..5E-H.8 4..4-.4E6 f 4.SF O.4E?.lt E 6.D4E-8.4E Ok.5. r.te? l.f?eo«4. 6.*E?3.88-.6! l.r*^.e J J.* 6.BVE.35 5.9B( 4. J.5F 4 S.S6C.56-5 6..E 5 5.6 3.6F-* J.?. MO.O 5.6E - f.4 t t.j«f b?.»*(.je Table 3.3 (Contnued) (6/] / COXCtttU f QlAk HfUllfQtt.88E9 l.sje'oo.jjf-9.e-. 4.98( 25. S.84C- JO.O.«- 55..E- 4.8ZE- 4.BJE-.6JE-.5E«.HE'OO 4.33E-O.4E- 4.E.33E>.39E-. H'OO.4 -..39E-.E*.8E- 8.4b- 8.9E- B.6C- 6. t - 6.8E 5.6E 6.5»EO 4.f 5.J4E- J.4EU 5.E!.«««.?E.E- 4.Obt-Ot.45E-.9E-O.6E- 3.E 8.4-y?.F-. 6.JE-??,J9E 5.».9E l? t.anr BO..66E.46 85..96E-.3 GO..J5E 8.J 95. 9.34E 3 6. 4.F-?.4E.49E-.SJ- T.M M 5.TU? *.fe-l? l.bte.8e-..«e 3 5.V4E?.2Tl-.JO!-.E q.tlf-o? 5.6Bf 3 J.4E? S.69C-.MEO??.El? B.E! l.*e 5.lot! T.E U 4.lt 4.B6E 3.D8C 3.6E U.OJCO.E-M.*?t-or..49E3. 4. J.S5E4 5.S4FO3.6E-3.9E.JJE- 4 3.64E GJ 4.SC *.Q9EJ.9JE-4 r. Tb-5.SE-?.?f OJ l.ok 3 3.3EO4.F-* 5.6EU.E 5.9E J.95E 6..E 5.9J?. 5.8E-6.(..Z3E * *. JE 5 J4..6E.36f 5 6..5F- 3.85 8..5E 8,»E 6 JOO.O 4.?E H 3.O3E 35..3E.JC OR «. 3.5hE-? 4.54E 45..4C-3.*«( 5. J.5-5 6.OE- 55. B.9E-?. 6 6..6-8.46E 45..59f }.55F.. Jl 8.66 5. h.wl J?.*l.4-.j4fr.o J,Mr.F J.8. J.U?.4 J.5 5.4 9.E-.' 5.E 3 l.fcl «,E -6.8E OS.5EH 9.8»E 6 5.OAT B.35E 6 2. 9.33C 4.?*l J.OflE 8 A.*?.95.44T -3.92t-.BF 5 4.6F 3.ttl?.4«l t.bfm JO 5.4/E 8.SBf J.J-* F -6 3.4E 5 9.8F - B 3.b?E 6 F.9Jt 5.E 3.OF-O r.btf 9.E-J.6 E.4E- [ 4 J.E? J.5B 6 -..89F 4 F 8 l.on 5.«(-.»?[. J J.5-4r J3 5.4(.5 W «.9Eb.5 S 9.HE.E-2O.8 9.OE-.53E 9?.9l?5 J.BOE U J.86E-..9?( %,tn.(.e B 5.4 JJ.6E 6.Jt 35.V.5 t J.6 4 8.5H S* l.tbl fc -2-

JACH (M ()(«Table 3.3 (Contnued) (/) OOSF EQUVALEN (.5 4.!<CHf M AT.f 5. /.9E 4. t*f <l B.9 All.F.4. 5.. 5. JO.O t.sl.j5f*.tll.'.'of*,)ll 9.9E.E.-J5E r.\t.jf' J.-,!l.AE.J6('OO l.bf t.on o r.94f o (.Of' '.*Sl -.?f' J.lE.*. 6. b.o ra.o 5. J.6E 4.9E. 6F -.J4E 4.BE 3 J.8E.9-?.9E? 9..9E J J.6E 4.84E J.5-4.b6E J.45E?.5E.6E J.bt.O8E?. D5 J.4BE.?Jt.JOE.F t.?.56f 9.6E?.5( U./E 4.5F 4.F.bt.BF U.9 l./toe U l.j?.t?e-<.9f -.34E-.OOt <.K 5.9( J.6(. JO.O 4. 5, 6. /. 8. no.o..bf 4.4E S J.6E 5.6 5 5.4E - lb.9e lb 8.44E.48F?.?3f.b.BC.5E.bll b *. 6.F.Ml. / 8.4 Oh.U J./ Ob lb J.'-9( U.6.Jbf Of A.Jlt Ob.V6 9.O( 4.;-(..' t 5 h.u. 4 a\.su B.bf Oh. ht.9 Oh JOO.O J5. 4.. TH 3.5N.49. J. 9.J!.m.4A 5. 5. boo.o h5.. %. l.?ll.6l..fltl 4.44 6.6B JJ J.VE! J.bH J Table 3.3 (Contnued) (8/) QUtVAlfNl AM). UdllAT!l)H FACT Oft cnnfrf f / rnta H umon HDEN NlUll \.o a.orf JO.«f-oo JO J.69-9.9F. ' 8.96. J.BM.JE- JO.O. 5E 8.SE -. J4l.. >. TE 8.9 Ot. 8.4BF D.5E<Q J.bOF.JSltoo.5F.«8.bt T. 5 4. J.4H 5..46E- ). - 5. 8.8E?.Z9F.F J.4F,OJE?.M o *.E.O.JOE 6.JL.4 b.noe : 8. Ml J J. E. M 3.OB.6, J.F..8.98EU l.seo:,.jeu l.os. JF-U.6L 9.5b( U l.ju-u.9e 5.6H 4.JE OJ J.OJt! 3 J. t OJ U-.4RF OJ 5.4H 4 4 *? 6.5E 9 (. 5.b?E- J.? J. t/l.5.5 r Jl. C J5.4?E ST. JE - J4 J. b.,_. tu b J J»9 4.69E--..54F 4..9F B..6E J..JE..4E T?..5E /9..4E Jl 4..9E. l.»«l J* J.6M..'.bt?4. * Jl.8 b. «f 8. 9 t.86 4 J.blF.B5 J.F! 4.5 JB.4j(.?.tb(. 9 J.4/f 5. -.4..J * A.5t b. 9 4.J.8?J l.fl"m -?5.!?t B.A JO 4.sat? -28-

.AKH! Date/Code 94 3 Table 3.3 (Contnued) (9/) RCCK H AT.f..EOB Z.BE'OO.JC 8?.E>..6F-.68E'O 'D.O J.3E \.*!.O.6U- 9.B6E r.bt o!.o«(.6e-.6 *tr.r l.oe'oo Of.) Ar.r '.9 «O.6t».SE- S.tlE.UE- ].*?(. 4.lt- 2.2-.5EO 9.9H2.E..C-?.E-5 l.joc-tj 4.JE.4E-2 l.jze-oj. 8. 94E.lfcEO*..4K-* 9.6E*.HE?.?E -!.(»[ U.8(-*.3.3JE-O4 4.. JJE-6.4C-! t.6je \f J.SE 6.9E?.U 6 3.3EU *. E -".4U. -».lf-. 2.... 4.. b.lh J.fcF l.44(?]!.6t to.o.rr? joo.o.m-?4..6e l.ol B. B( -.4F-.UC.4.4 4.E 2.»2f l.ofe*?* J.Jt.4»E >,lt.bh.c.se-.?r..4de *.?*E - OO.O. BE-J3 3.6«F..6U6.6E,. 3.BT B.JF..9E-4O.9E.4-jj?.98E? f.bjlj*.9f J O.OOf- O.OOf'.l>.* 2.9F 3.BF.66F».»E.NJ *.»F.* O.OOt' O.OOt'OO O.OOE a.t JJ l.tlt (.EH.9t O.QOE'OO O.OOE* O.OOE - O.OOf Table 3.3 (Contnued) (/) OM tacos CONCRUE lotal HFUROH ( j. no a.tan c H CH H All. n tt.r. 3.4T- 6.SF..2-3.96E 6.2 E.E-».S2E-.fc - 5.SE JO..6F..6. 9E. l.*8e.4e 9 6?? 9 r. a A.4E- J. 4.4E- 3 6..E- 3.99E -.E.JE a. E 3 9 3. 9 3.4E.3F?.9t J,6fa( l! 3. ;ot.3 8.2F an 3 99F 3 HE.3F - l.oe -ble 3.8bE 3 S.J4E l.««jc 2,?U -?. ao..f- " ' «" a. HE 4.E.J6f 4.6E -OJ «4 3.E OJ.E -OJ 9t 6F t 4 4.39E l.lte 9. 9. 3 2.4E-..96. 2E - 5 2. OC 4 t. 9( 4 64 n?. ff. * nr S Ob 9 6 *. 9. JOO.?. 4.?ao. *.Tl *.6t 4.F? 3 b.9.9 2. 2.8 f t [ E f F OS OS. 4.. J. t m n 4E?t a 6 6. Jt 2.OE.28.-.E l.ot 9 9 J.'.(?.U2 J??.86E 38E f 6.AE.:?t?.*hl./E 9 9 3.. J. 4t l?l 9f OOt -?? 2!.6E 8.64t 9 J..6F S * 3 9 3F (F??J ft.e.2* 9.99. *QO.(^ O.OOE* Q.f*O.t* O.OOF'OO.*.t*. O.OOF*DO O.OOt *.'.' O.OOf«oO O.OOf o.oot*oo o.oot*oo o.oor»oo o.oot*oo. O.OOE'OO.t* O.OOF'OO.*.t*.* O.OOE'OO O.OOt^OO.*.t* 6. O.OOL*,OOF* O.OOf * O.OOf'OO.(* O.OOt'OO.* O.OOE* O.OOf'OO,t* 8 8 9 S...* O.OOt *. O.UOt* O.OCt «U O.OOT'OO.*.! *U.U>..t* * O.OOL'OG O.OOt'OO O.OD**.* Q»tfQt*OQ.Ot*OO OOt '.'OU.6SE- J.69L- J.F- JO.O. K 3E- 9( -29-

JAKK Date ( ()<!< 9- ()(«S EQUVAUN A A[tlMU<*[ ON MUM* Table 3.3 (Contnued) (/)... 2. 2... J. 4. 4... 6. J.S9E.BU B. M? 4.6F??.lt?.6E?./t J.J9E! 4,r./ ' 9..6F 6.SOL..m 2.S6. f?. ( -?.*t B.?nt n 2.on?.Ol? n.. l' 9.BF Ml./F.rn o.he.6/f.e J.9?..'f. b. Jt J.9t.4/F'OO..4.QO.4F..'t '.Tt- J.6E 8.OOt..' - 2 S.F s./r J.t 4.4.OE-O -5.JE. 4 - J.'.46./O '.Ml. B.lbt l 4.E!. Mf-J Al -f. '.4' «.m»oo 5.4L*.'.Jll'.ao o VJJ[..28C '. /. ao.o J.&f 4.lt 4 l.ot 4.9'jf. J.lbf.2. J.l»t l.rlt 9./ 8.6J 3 J.H 4 S. BF l.me M J.9( OS 8.4JE 5 J.F *.6 «fl.kt- l?..*f t U OJ.9 -*.E -.6/t 9.. /8f.4/F. /.BE- b.. lb. b.8( /.H.. OOt 4. J.4 6. *., BO.O.M?. Oft 4..t t. lt OR.(.ll. J./lt F f. * 4 J.Ut?l.?O.?«. S.BE?J /.4f l.obt A./At l.bjf 6..9/ 4 8.84.B4 4 9./. 'tt «8.».4t- l.o/l.6f..4.! Joo.o».69l b.9 5 O.OOt'OO O.OOt- 4,?r> JlO.O. O.OOt >.-.OOt > O.OOt>. * O.Of...* OO.O O.OOt.'. O.OOt '( O.OD-DO r.j.e l.tll W..t U.QOl* a.oat >QO.Jt / b.«jf Cft.9.o. o.oot O.Ot *, M].Olf 'HO ).OOf ". - l.b(./ 3.4 t b.tbt 6.OF J Ol./ 4..> O.QOt' O.OOt',* O.OOt" O.UO«.'.^* O.OOt',* O.OOt too o.flu.no fl.on>oo O.QO. '(JO. ( '. OU '(J Table 3.4 Does equvalent per source neutrons and attenuaton factor of secondary gamma rays n ordnary concrete (/)» (t(ch)..4 ft,/e J/.. 4 ),F 33 E? 3/.. H Al.,4/f.B/F -OJ.Obt '' 4l \..9f,E 5.! ~",. AT.F H.9. - J 'ftt on JOO ft!,(. lt 3, RSf 3 (5. JOO?f> Al,(. ' 3. /bl OJ JO S J.OH. 4t.b9E.8F -??,_... /9 OE JlL b.9be 4JE b.bbt 8/ 4.btf 2.4 3.BOE.8?,9U?.b»l?. b(?./?,*b f : b Nl.fllf ff ;.f 4 bfll.»9 ftof?? W.4A.88?.8? -E? b / s-: 6 4 4! : J tl.!u.9 -?JF bo.bol 2. 4F W BE lt.,. E!E - 2.6.*flf 2 6L m?. 2 '. 4.f '"? 4 lt> ME ' 8E? '8 TO. Obt -. 9.4t 9F.OF.9 9 /Jt J.8( 9.J AO 9 9 too no 4 U.)!. J.29E J,/4E J.3JE J l.sj.64..3.9e.9(.b6f.n 3 3 U U sot 6f 44 E.:SE.8E.5/E.4 U J J /? 64, 8 S r J 4 4 t 3 JE? F 3..'E,JE 2.3E.6F 4M J Mf laf t 4t 3 J MC? fcbf -? 4BC 2 3t Ut B 9.B8E.B3E.B/t 4 /.BBt 4., Of *..«./t t4 4 6*! 4 3.,n.S9 (4. S < 4 4 J n -, 4 4 6.an.n OJ OS J W. 9( 4 f OJ 8 OJ bo 8 3» 4... 6.. * 2 J ] J. JfcE.flt,9/f.HE *t 4j[ /BE t u \r \r 8.4 BE l.s2.33 2., t. / l./lf o 4 6 6.BOt. ll 2./ot 2.BOE t <j *!/ / 9 K /t 4 9 4 9 4bt J Alt \ r t..8,»l.4 /.8?. 8. * 6 ' / 2 r - w t u A JOF J o 4bt J 9t K Oft fc 9t lt E tb / t B t, J?.OOf.44!.or 4t t Bt lt bll 4 ot t? Ot OJ flt - B 4 F ' t WE 4 4<>(.' JU?«? 43. 8 4 J Oft ot. 4) JU Ob -3-

.JAKK - Dat'/Codc 9-3 Table 3.H (Contnued) (2/] DOSE EQUVUEN AtTEHUAMOM MUOM MCOEN MEURf (5. 5.) (5. 5.) (5..) (. - SO.) < 6. 6. t(ch) H HT.F H An.F H AT.F H «fl.f n AT.F 5..4 E 2.4E OJ l.jbf 2.O8FOJ.J/l.5f OJ JfE.E OJ.JE-.UOJ 5..99E-..4 5. J.JJFt!.VJE? 5.?«? ).»E? 5./(?..5E-.UEO E? f-?.bjt-!?.8e-o?.se-.beo 55..5«2.9E?.( 2 E? l.49f?.sjcq.45e- 2.B3t-O? 6..3E-?.ME?.. J.?OE-U.JJE 3.tu-o?.6JE E 2?.*:f! E-O?.JC-J?[-?.63E - J.E.4E U l.te?.4?.be-.f?f-j.4je f- E-O?.4L-U Jt -?.JtE-.HE < UO.O l.ll' Lst- leu t.e-j sc o?.ar- 9.96E 4.. 9 3,..EU 4.4E J.Ut J.JJl OJ 4.UE" J.4BE.9E- J? JJ. 4.9E-5.4E-3 J.4!t-».W-Q.?.54[- 5.HE OJ }*?JO.?.»F!S.Ut OS..S8E- 5 a.troe ).]OE s.ato J.JE-f 4.JCOS t.ttl-\t J..SC l,»*e 5..94E-.8E-U.6C-*.EU. *.?St Ob J.4E 6?.u boo.o.j4e- 8.9EO6.E B.9(6.E9 t 6 4.B.E 6 T.Otf..36C V J.Bll Of 4,?lt L'O.Jrt / l.t«*.» C OS. Table 3.U (Contnued) (3/) 9.93C-? 6.6E-3.E- 6.BEJ.?E- r.o^f- l.ojell.e-j.sc- f.tteoj 5.?.T?t 2.UE-?.BSf-2.3OEO2 r.9? -l? l.lc-2.me-!.26-?. m?.3!f-! 5..H.8' t-?.bht-?.beo?.6e.9e.59e?.e-o?.56e?.6t-? 'E-O.3JE-9 2. EO.8E.6BE-O t.?5e-?.65e-o?.??e?.*eo? 55..3E- 9. 3.J. 2.2SC-J SEO 2. f 3.E-?.4E MU'll.33t.9-5 OEO?. E-?.BEO t./jej.?f LVE 3. E? ] t-oj t-) 9..2E4. f.os.je4.8bc.4e 4.33 J.53F-5. l.obeoj.*e-ll HO.O.JC t./4 o* '.?lt U.JE 4.?t t r.m 5 Ob.4H-U. 6.8C-9..r?c-or.St.8OS.4U-O J.S*l 5.9!t..?l J.5 9 foo.o.h? J.ftOt 8 ). J..ht-A l.*s.*-9? 5.4H-.3JL? B.OSt 4.All?] l.b«f -3-

.JAKK Date/Code 94 3 Table 3.4 (Contnued) R(CK> 5....49?.(.< 3 -E- /.5t 3..Ob. e.m. *E OJ /./E OJ.J4E.6JE l.lof B.J/F? AM A J.OO l.*u- 3.4F OJ.64f J.OE.E- 8.E OJ. a.j?e 8.J8-.4E 8.J/ 2.4 J. SC-\2 2.Jl\.-2.tTt J. l*(?.«4f. F-.84- J.6E 2.Bt.2./E?.9E*?.58?.4*-2.68E.4f.5F. 4JElOf. t?.6je.9e.*e?.m-.ft -2?.'t.6E.HE 2.HE.4E? l.oj-.j5(.9e.86f J. J( l.mf-u.u 4.o -u.a?[? J.6E3.64E J.?B u.ue-2 J.mJ.bE- J.ll J.49.B9E-J. J«E -??.Ml J.J 9. 9...5EJ.3 E-.JEJ.f. l. BbtU.. ^ - J.E-?.6E U 9.8E-.8EJ.6 l.tlf U.6E.4bf U?.*4t.JU 9.E-J.4CU B.4H-!. + *< J.Ot? l.?bf J 9-J?r OJ.5E- U l.tn-d.6f - J r.b9t -OJ 9.6E - 4 T.4E JO.O 4...6. *. 8. 9... 4. 6. 6... 4. 4.. 5. boo.o blo.o. *!..BE-t4.94E.!JEl4.?»l 8. J4 5 J./Jf OJ ft,j6e.68-5.3e OJ 4.f J.89E 5.! Of.BT 5.6ft 5.6/C 4 l.fot.'e- 5 4.4E 4 8.WE- b J.HE 5.'E l.j'f 5 4.E 4.lt 4?.!*( t> E.65t 4.4J.Off.9 4.4jt 6.6.<lbL b.4.8e-6 B.9. b b.tot '. t f J.9 4f )ft *.*l- 4./fOl J.9JE/.5BEO?.Wf \t.44.h.jjt 6.t-/.6E J.B8E B 5.6E 6.B( B Z.llt 6.6) -.49t Oh.fE B..JBE 6 8.<t?l 9.*t 6 J./OE U.9J?.JOl >?.4 OB J.6E-9 'j.lbt-lf.3tf9.? 4.BBE.9 \.Ot.E- j.or-?!.ufj? J.?( T.JO!.,*F?.l-? J.OOf.bE H.UO 6 J.Bf 6 5. '?.5( W B.4t B B.bJf * 9.* 9.4B 9.")h -.. t?j b F Table 3. (Contnued) (5/) R(C H>..?t ( 5.. All.6 B.E 3 a.e?. 9F HMDtHt nf 2 (.. 3 AH,F f.9/-2. JB / (...* J 45. *. / H Ar.t.HJF?. J/E 4 < *Q.O N5 OOO OE? 2! OJ?.84F-.36 t - ( Jl,. l.lbt 8.4? JO.OOO Alt. J.OBC.4JE.9B ^ -OJ or 4. 5. (Q.O 6. '..bt 2.6E.bE.3E l.jh-.e 2.5E.4E.'. J.6F /.6E.96.bflf t t.su?. Jlf Jl l.fll-o? «.E 3.6E 4. 3.F-..5(? 2.4K-? ft. bt J. J. J.bBf l.< l.4«2 J.J6 2,4.J2E-O? 8.J/T 3.98E? f.m4l J.9t. 6. lt J.4E?.8 U.6!! 4./fU.S-O? 4.3r-lJ.4 l.jsf U.2*>EO.QR-3.9E BQ.O B..EJ.2J-?.9E U.E?.BJ..Obt J..8E J <J.4rOJ.63E J B.6E.9-6,/'9(-. -J S.6f-H.. ll.?[ *.f..?! -4 orrft?.om 4.ror 6.?4( *.bt-6 f.n o B.98E- /.8* 8 3.43t 6 8. JOO.O J. 4. 4. 5.. boo.o lo.o TOO.O.Ol-W /.8E Ob (.HE tft J.9L-b 4.6UB J. 6 Ob..J/ 8 t.64lt 4.F 9 J.9t-/.8M N./F / J..4E 9.U- 6. lt.9t 6. /4(.6E-4.nr?.*t.BE?.6[-/ 8.8 -.ll.'9r 9.9?J. J.Jf S. t.nt?o r. J.5.JTF.4? J.W B.9?l J!.*?(.H 4,! \.m t. 4.8?t * v./6( 8 J.?J( l.fcftl 9?.!?( b J. jo o,*'» \r s.b6f - a.wr o«4.?u. JF 4. OL 3?.m r' r.r-jf -32-

.JAEK - Date/Code 94 -- 3 Table 3.U (Contnued) (6/] tno AMEXUAFON FACTOR MCOEH NFUR 6 ( l/.lool Alt.F RUN) H Al.f H H AT.F K.JfclO!..SH J.6E-3.8t-.9 J.m-3 l.lbll J.B 3 4.4E.C?.. 4E 9.?E OJ./-. tve' 9.bOF-O3. 9f 9.b9l 3 2.t* -.! l.o S.4U?.JE? a.llf 3 a. WE-]?.J6 3./E-.6H-? -JF..9YC-?.5EO? 5..4JE-? 2.3 E.J8E-! 3.25E?.?*E-2.M-Z t.?h2 2.OEO? Ell.3E -3 f.e O 3.66E-.4F-O2 l.lbe ].J9E-O3.9( U.48E- El] J B.llE- 4.4EJ?.m-u».J«-OJ.S4E-.4(.6C-3 S.F«!».! ( t t.48c OS.r»E t 3.4jf oj 4»E.9E e-4.9e,.49e-t.6+e - 8.4*-* )..MC-.Of-.9F4 WO.O.JJl-..4E-..E' JOO.O l.j»e 6. l.ttcu fc.obe.4-.6e- 8. 3.o a.on- 5..WE-2) fc. 5-...l!t?6?.»Jl OS. ru-o l.lt-4 4.kt-.* T.OV.Mr,;?f os 5.?(? J.6HJ.OC-2?.b! OS.34E?S 4.69L 3.?bE-?b J.6L 4 T.-8.SC 5.3F?,E.3E S.»*E-. * VE?.f 4 4.9E l.*e OS «.? t *.SE OB l.**e.6jf!.36' 4 32..44El.)U-4 J.**f r»-\t.ot -.M-4.OJt-*?.* E-.4E. St.'B.'tt -! > 4,?L-8.2 *.r?co*.bt 4-4 t.4tl-«4.j.4u,j?c * 4.4( JO.O J.HE- 4.oo(or or 4.JU- 4. -.E-.3E.24(2.8 *.ME- 5.Jt.E- 3.63C!.2?E-?J f.l?e-? 4.3E-B?.?( -?.E-J l.f'e-4.l- «.J9f-?.E- r.olt- Table 3.U (Contnued) (/) NCDtNT NCURON NFHGY(NlV) 5. b JC n " H H...3EH..,'f?.6E- 3. E?.99F. Tbf 2.bE J.Jt?.5E-.9E-? T9E-? S3E?.UE3.9E-?.9E.?t-?.?BC?.l8t?. r.lreu l.6sf 2 fl.ose-u.69e B.bOF 3.8*. B...44E-3 l.jbt- S.t9E- U.3 9EO?.BOf U \.*K? S.MJ. J.ME- 3. lt? 3.3E3.UE-.C U.Ot-OZ J.hOE.36t l.?ot 3.3E?.Of? J.*r-ll KOlf'OJ. LTE-3 5.4f.EO3.8E- J.3-3.JE U.T9E 3.E S.llt-3.U-U.3EO. r.ssl-h 4.3E3 a.oteu t.je 3 S.?t 4 4.E.bQE.( r.ue-4 4.C-] 3.HE.F l» J.H 3..JF-4.43 3.?6[ll.4 E-J.3(4.!t 3.6 E t.3e OJ l.ftle t.3jm5?. J.St S 4.bE 4 3..8-S 2.4E4.84E- S.bOF-* Sf- 2.4 E Ot.6-?.4U-4 F..Tft B J.llt-B.34E-Oh j.llf B >«E Ob.4. F - 8.-4.l*t-l8.lDt Ob..84-.TE OR O.O 8.(2 «.trt.4ft -.4Rt-B.6t?.ft. 4.JE 3.E-M 4.9E 3 6.4.H 3.{ F l.hjt?j tlo.o.j?(-t J.89L??.bF 4 4.4*-??.fl*r?t 4. 5..3-?.Mt 3.H- J.lbt U l.4?r? J.«L 3 9.9«f k. 3 8.?b. ff U..4BF-.«t-l* 9.9F-t.3OF t.6?e?.< (JOO.O 4.6F 8.JbEll l.bbt 8..f? \.l blo.o.t*\. /t J.bbl /.?O b J.bf.J...8 r.ll B?.* 9.M 8?.<> >( o.o.cjf J.4 9.bt J r.m f t.t«t J E OB.bF l.?rt-8.2e-o.e OB.JE.»?t * F *.*»( 2 *.9- JF - ).!*(?J «.?<)l 4.6 l.llf-4 J. E R.*E lb?.»t?fl.* 6.Qt 9 6. ROE.3^t 9.?. HF 3 *.»*( B 8. J.t4t -33-

.AKK ),lc/('ndc 9. 3 Table 3.U (Contnued) (8/) ' CON(.N[ Tf (H tgvcmtv < 8.9 - b.fool tlol H Alt.F. S.Mt tl \.t 6f( b.llf!.. lt. /.?f 9.C.69? 8.8E l.b?t.6f-. 'tt t-?.9eo E-?.9E.9E-?..2..tot?.oac-o?.? l.l»e l.bje?.je. lt -?..94C 'A.ME? H??.ort o? t-.ju.joe?,(f.o8e J.J9E.2f LOSE *.9tf J.Jt..b9E-lJ.bt! n.o l.sot U.JJE OJ.FJ 6.JOt b.ltt -OJ 4.8 OJ 9. J.69E- 9..SE-.9H-J.6E OJ.rat.at?.htt OJ.OH ].E OJ l.6tf OJ.«fOJ. -..- J.9-.kf-..a aj t.*-oj. tbf t.4 OJ.* OJ.B6F?,6?f- t. lt l.bnl.ok ' ).6? 4 6..94 tb 4. /O.O.Mf /. 8..6 E / t. at 6 9..8E E Ob.. tt \t.9be 9..;of-. U oa. J.flt-J «.E.E 4.6bE? 8.E- 6.ME J *.l\l?f. E * t.99t b».?f \.%n tl?.bfe 9.6E- U.JE /.6M.6ft W.bt OS.tbl W 9. Oft t. Ob.9(.OE Oh.M XT \.an 6. m u.flj[ 6 B.6t R J.SOf Oh?.»»E Ob,nn ta.6 Ob. m a 8.bJF Ot r.jr o/.*t 9. 9.tt. j.br?j *.E n J.»!T?.Jb J.bO?*.b4E-?.JE? l.:o?««.*?[ b./%r-u l.»h( 6.«E b 4.S9 Jt. lh[ * >.(.«( ) -* *!. lt.j fc.ra \.Tbt,*n or.94*-oft?.(-6 *t.k.e» 6.tt 6.J3!".*.»t Jl?. *.(./M B..99. 3. V Table 3.U (Contnued) (9/) DOSE CQUV4K H NClOHt NlUfBDN NRGV<KEV (Cm.... JO.O 4, f.je-,?9e- 9 J.no.JVl.bhr Art.F.bbt -OJ.T6F.9ft[..U.4E J.4 - AT! LOSE.;*t J.Off -??.. J. H tn u *9E AT.F 4.J6E OJ.?U? ].?..E. J!!.! (,5. l.l?t-?.e l.obf.9e ;.OF?.6t 9.9BE U.9..*bF-J.8E.5 S.?9f 6.6U J t.b>( b. ht U.^ t J Alt.JOF.lt.F OJ?. J.6EJ l.llt-. -*L J b.meoj J.f l.jot -u 6. oj 9..bO 9J..^. J. - 3.b?(-«JO.O an.ae OJ.J9E l.jk l.-jh J.BF-. J.?.SJt-?.8 or.utll./(? fa.o?( -,«M.E- - 6.WE 4 MF-U.?E- t.bc-4 l.^f H t. 4..BF-H.4 9E- 4.«6f 8..6 E-T 8.6 6.4 E-. b.bbt 8.bt 6 6.9f-B. WE 6 l.?fl»?.9t 6.. HE-B 8.9( l.blta t.fhot.4e 8 (.ME Of 4.99) 8 l.tlt * 8. 3.4F!,M J.JK-.6 OB J.E?. J2C 8.BM.Bt OB..* 8 4 -... 6.JE -OJt J b J.4!.«t u r- u j s F-J bt b J.Jbl,4?t J J.OOF.?J 6 J.ht.Jbl J..--?J 6!, 9 B Ut J.8 kf fc.. 8. JO t C n unt-oo o.oot <oo o.oot* 49(-6 J.«E.JQE-.al.JE.E- Ob.8OEU.9SE. *. lt.f- J.BbE \.OH \ J.tJt -34-

JAKR-Date/Code 9-3 Table 3.4 (Contnued) (/) (. RtCHl H S.Q.B9E-..46E *.O l.lot-.4l? 2..JBE?.Wf.J*F?.r-ll?,6E?.49B) At l.f.b8f? 3.ME? O.3J4 A.F.224) m.f.bsf.69e-o?.rgtll *.«?.E 4.*F?.?t 6.}«r-? to.o l.otl?.4eo?!.*«2 2.4JE 2.4E-2 2.6E-O2.J4E-2 4.9HO. 55. J.54E-U. 6.Q?.m- r.r 6S.Q.4E- S.r?.?E u a.moj.34-3 b.9eo3 2.JE3.U3 4.J3EOJ fc.bbe-3.he-j.2je-.je-o? t.])f-.94e-.2e-3.boe-o2.e-o?..se-k S.Q.E- 4 l.wel*.29e-j?.4n-oj.8e-3.ju3.j4e-l t.l )..44f-U UO.O.O4E-U ro.o j.sor-tr.4je *.39E.ttr.HC-O.9E6 J.JC tr 3.F.M-O*.JE 4 4.4E-.?9E-t t.»/e-os.he-r.nt-o 9..9E-. r- Oh 3. t.5t-». f*f 6.BBE B 3.J8E-Ob B.bJ 8 3.b.OE-.E- *.J(. J.5J!? 4.4E. O.OOE* O.OOE*. O.OOE'OO O.OOE'9 5. O.OOE'OO O.OOE'OO,. O.OOE'OO O.OOE'OO ].5?E? *.boe.t» O.OOE'OO O.OOE» O.OE*O O.OOE'OO O.OOt'OO O.OOE'OO O.OOE'OO 2.4SE Z? 5.9 O.OOE'OO O.OOE*O O.OOE'OO. O.OOE'OO O.OOE'OO O.OOL'OO O.OOE'OO O.OOf'.t» O.OOE'OO O.OOE'OO f' O.OOE'OO E«O.OOE'OO f' O.OOE'OO l.ht? t.?ll- O-OOftOO O.OOE'OO o.aof' o.ooc'oo O.OOf» O.OOE'OO O.OOt'OO O.OOE'OO O.OOE'OO O.OOE'OO Q.O.DOE' O.OOE O.OOf' O.OOE'OO E'OO O.OOE'OO O.OOE *- O.OOE'OO Table 3.U (Contnued) (/) WE-? l.l?e»o.o J.E-! B.S5E!..3E-t? 6.9C-?.?bt )?!.8.? -J 3.55!.2E? b.!8e. l.b9(-j.4f? S.O.UJ.b^E-O?.?.^E-4.2 t - 2.6VE U 3.JE?.6E- 3!.*E. 6 - U.tH. Jt tj 4.9f r.j 4 J.O?l 2 \.?*f J.3- t.foe-u.ooe-'.oe u n.m-o? t.ort u.we- 6.4E- 4 6.3EO 6.6EU LOSE. 5.. 3.oat 4,9E -4.JOE 4 6.48E -3 4.4E 3 3.»E -3 3.3E- 4 OJ.96E- 4.Obt OJ.8E- 5,UE OJ 2., OE -. 24( -.65?.6M U J.lf.EOF 4.(2 l.b5t 4?.42E-.8-4 8.A4t-O3.E4.SE l.l«l«4.36e-.4e- no.} 4..E-.9bt- b 4.UE 5.btlb :«4-5 2.9E u 8?.?*E - A.rat-o 2..9E- l.mf Ob l.olf- B.bll Ob.SE 4.4B( Ob.4.ut -6 l.oje -B,6tO 6. 2S 8.35E-.B6E B.E?.BEO? B.E 4.8E 8. %.BOE or r.89l JO 35. OOE»oo O.OOE O.OOC O.OOF'OO O.OOt'OO. ( fl nnr o.oor fl. O.OOE' O.OOE*. ' O.OOE'OO O.OOE'OO O.OOt' O.OOE'OO O.OOL'OO O.OOf'.' ss '. O.OOt'.b* O.OOt' O.OOE O.OOE'OO O.OOE' OOf'OO O.OOf'OO OOC'OO OOt'.< O.OOt'OO O.OOt'OO. O.OOt'.' O.OOf' O.OOF' O.OOl'OO O.OO'OO.f* O.OOL' -35-

JAKK ) ; U',(\><k> 9-3 Table 3.5 Dose equvalent per source neutron and attenuaton factor of neutrons n ron (/). " ACOB (JON *!«l NMDN HUjlfON mecmntu G.O. 4E OB UE'OO.8E8 6.«f>.4 8.99[>.E 8.m»OO.OH 8 l.we'oo 9 8.4CC?. J.48F Ov S. E 9.Obl* J.;O OH.o j.oac o«,o«[«o.fl t 9.E'O.ME9.6E 9 l.ok'o.e l.or-o' 4. t.oof 9 l.ok'ol 9. WE. f.49f-o 9.JH- T.6E 'E.6* J.*8t r.odf '?L*O 8..4E - as.o.oac o.ojt J.Bf' '.'JF'OQ b?f- 4.94E ( OO E - 4.^JE* 4.BE* l.?4t- 4.8*.4( - 4.9E* S. f.'l'oo * t - (.68(* 8.6 9f J.SE'OO.?t*.8E. f*».b?l.99uo.4e" S.48E.bBf < V.OlE-.4E'OO. 9.8E? B.fc( 9.4-? B.F- 9.SF B.D4E 4. 5. Tt{?. tt Ql ).S6(-t?.lTf Ul.jf? ^Wt Ot 4.S?E?.OE 6.?.OJE?.6E..U-?.4F. bf?..*?(. *.f t?.6v.f BO.O,?3E-U.Wl.?t '..6 l.9.o(-!j S.E?8. loo.o 4.JF.l.'t U 4.6 OJ l.lot 4 4.?( 9.4( J.A«[.Bt 4.J4E n.:9t OJ 4.8 l.3f Ot.6E.lBE r./?l 4.b?( t.bhf o«t. W f n?,«op n».j4(- 6.4E 4 to.o?.*9[- t..4.9k t6.:f 4 lo.d J.BL W S.-^flt ^ l.*«e f,',*l OS OO.O l.ul!'.ott ^.JH H.8 ; l.oj t. Olf '. ( Oh. ^.?*t B».faOl Ob 4.! ( 6 4,?( nl.o. B.4* Ob B. Ob.." -,.AH Ob.*j4t fao.o <*.6U 8,/t or f.bll.* S.8/( no.o?.t>bt l.daf.' «t.o*t D:?. J?.Vt o:.u6( Table 3.5 (Contnued) (2/) H *M AtUNtlAHlN '.CtOR NC D M Nttf n.o 6.E9 '.99E 5.SB( 9.9«OO l..'e 9 r.b[*o JO.O.96F9.?E- J^.O.4E9 l.('.3u -J*l 9.E* B.ROt- fco.o J.?t..8JE-..JBt.C* 8.BVE- J.lE'OO 8.3- J.JSl'OO.J6C- J. fae > 6.6BE U 3.F- b.o"jt!.b3! ' S.»»f -?.6?f* l.yjf-?.6f* *.bf?.jf'oo».*t-tl.h-c.bh'oo «. lbt' J.4(*.8*.*.8?t*..f JE'OO.B6F, 3" t '.bb- l.?f '.JE-M. f '.JH-J.Obt'OO..9 lll'o.sc!l 9.JF- 9..'OF? t.rst 8.6JL- 8.OH?.blf? 4. 4.oat -? J.bfcE? 4.H )? 4.,8«tl! l.fcl J..H T 6..4?[!. 8.J8F.4E- 8. 4.98EU * -bot U l.mf TOO.O.8E tl 4.U.6E?.J8F ].4.9U J.8(-O l.oj J 4..64E6 l.l!,e 4.??f h 9. l/( %.ot n 8.t 9. f /.8 4.?6t o 4. raf \r j.sef o*> 4.C- J.«4f.4 W J.K 9.?.J9Ft.99.8E.8F \r l.bu.,lt.4.ll f.?u t. l.sot ft l.lfl l.ohf d?.j 8?.m t4. l.j4(-8..bt B s.m ab a.art 9.nt 46..E " b.?bl-/ 4.4Ht -36-

.JAKK - Dtc -Codo 9- ()(«Table 3.5 (Contnued) (3/) SE EOUlvAUttr A NO H MNM (N MCOR ' NCDmr MU'UON otacv..) MOO. 9.) H All. H Alt.} M Ml.?.-6!.4br>.E OS J,«OC.94 J.J«('.B«OB J.J *! «( OB J.?6f' 5. 4.8 9 r.2..o j.o'-m. n ' 5.?.Obf 9 6,6['O..44 -<) 6.6U- 9 B.lbt' r.bj' r.fs-oo.lt-9 r.om 4. 5..9E 6.5E» *.sn*oo 6.?. Jf- S.OE'OO.9?f 4.69*.6 *.f[- j.eor' b5..le- 4.44E* t.*h 4.6 <.28F J./JfOO. *F- J.JOf'OO. rtt' TQ.O.WE J.JJE'OO.5-.4B* S.*E.SE'OO B.M?.BE< '5. B.UEW J.Z!"E*OO.«E* 6. *.J?f-(?.?8t* 4.32E l.«6e>.se.9e* J.9E l.tje'oo 9. J.bHl.9 [ 95..T4E-.6,E*?.4(-.4/fOO.E-.3E-O.?E»OO.Bf M.*.JOE t.jje 2..mt - 6.. J.BE- 4. *..(?. l/e -.8/E?.49C.4 F?. 8t.4JE-2.9E.9E-? t.?«e- S.,???. 4. r.j4e-]. '6E -.JOt tj.e 4.r/E 3 fl.5j *.2JE.Q 2.TE-.4JE? J.L J,-?.9C-! 4.E?.6HU.kt o: (.».< f.j?e *.9U? *.?JC-*.EO.lt t*.*eo? l.koe-!. j.ue- 6.E J.JK.E-] BO.O l.oc.ksf 4 uo.o r.rc-w tjc. J.E'.E-.6 U. 4../ot- B?.oor 6 4*. 6.SU B.45E ^.9M r.nr!.*![- B.F Ot.*.'.OF Ob.C B t.jflt Of.!.*t «.OOE T.M?,6 Table 3.5 (Contnued) (U/) ' RON f«bcv[mtvj..36e 9 9 b.5«f«?.e 9 6.5t'OO.93E 9 5.8]('O..*-9 6.4* J5. f.?jf 6.6E» 5.CO Ht *.6E.-O 4.68E*? 9-4.jr{*?.?f 4.6r*./E- J.6^t*.93E J.6J* 5. l.au - 4.D8E*.T J.?Sf «OO.^Jl O J.^?C>.*«J.JJt'OO -JH J.lE'.6E ^- ^.JU-.4t* o.o HOE.m«oo SO.O.E.3t'OO.89E.? *.95!?.U[» ^.^«f.e-o V3F.B4F' 4.JJEH.aoF' 4.ojf.bE«oo.;?t J. ff.soe'oo 2.9*-.4OE'OO?,T\ -jrt.!*e- 2.^-.feE'OO.9R l.toe.e* ^Bl VJE- l.4^e..wf B.4E.- l.«t-.6s 2. J.S9E- 2 J.m- J.8E-J J.J3E UO.O 2.OE?.4^E-l./BE-?.9 Ot *. *.4E.6F-.OOE-t?.4(( l.sbe 2 t.lseo l.thu.s4e «.?Jf J l.?ff-o «.?flj. l.jol- J. 6. J.FU b.84t-.!.ll( J 4.46E 9. /.J s -!+.t?.bt J.9HE.6BE U J J.J-.OH.J fl.,'6f OJ J.fB! V. fbk OJ J.TE. b.84l * nf - 6 t.<?f -5.ME -6.66 4.6F U.(.E *.4? 4.f>(?.!f W?.«6t.6F W.2 ^. / l.ou } 6?.Qtf- 6!.(M 8?. 9f.? 8.%t -6.% B.9 Ob 44. <..*!> :f 4.;rt 46..Jt -f.4 48. 4.6E.6JE. w t -nof o/ l.ou - * t.b* ' 4.tf?o 6.vroB.rtn ;o fc.jo -3-

.JAKK '"Code 9 Table 3.5 (Contnued) (5/) SO.OOO Alt.F 3.< HC Of H HUtROK El *>. 4.> H AT. l.n 8?.9JE< N.]( 9 4. ttt < l.tftl OH.lll <. ) [.f /( 6f > 4. H l.«t 8 «.»«9!S. > Art.f. Tt. rbf < JVOOO H.JSt 4. 9 3. At.(. bfl J. tt.ht OS. V*(>.Ml OV.fll S.JOE'OQ /.?f so.o 6. ro.o T.a *o.o TO.4f>oo l.t'.l 3./ '.9E.49(* B.3J.3'?.*('OO.?lfQ!.?n W.?.8t!.3 '.OOE'OO.6">F 9.9. l.-lt M 6.4/( S.. f.*t Ot.86.?4f e.n?.*4l* " OSE'OO./6C.*«F*OO.JE'OO fl.4( 6.9E... UO.O *. tjo.o 6. ro.o 8..?r?.8/tlJ.tt S J.6E?.*l.rto l.ojt 6.tOL 4.J«L o?.86eov.sao? l.?jf? r u 9.*t(? b,\">l *.J?f? J..' OV.84(..am.tt-. JC - /.Obf (*? 4.6?( ) J.O?f?.9Kt -JO R.%4.M.. r.n.6 o./at Ob j. n or.jn n \.h ^.l!l t *..'ll "»?. 4 f fcumjou r -llt Table 3.5 (Contnued) (6/) HC DC HT NfU 2T oo> (?o.ooo. l?l 9 J.blf DO l.ol J.JM OO. 9 J.t, l.*(.jlt'.l?\ «A.9.oOt'OO >.O?.8^L -t.l'oo.3?.obt ko.49e.o.9.?.4f?. s.a?t-?.j:t- /.ou o *.?F 3.SM 4.bJt. JU'QQ 4.TF.?Jt < 4.«3( -.SO J.J'OO.V«E l.ojf ")n J. bt.n..me f.9f l.e>4f.?4f. l?t -..Ml.ll 4.bt.4?;..lOf..JOE T..4E 3 *.8(-J.3JL 3 ).J» J C./e 4 fc.m-o? 4.WE??.?JF.??.!E 3.TJF \ r.f * J.6*f!.V(.93E.llE %.sn?.onc.ojt?!.??(.9e - ].?«( 3,) 3 J.* U j.uo:.o/t 3?4J bo.. l r.tbf t ;."jot b }.9t -*».JF T.sat u S.bE 4 4.8 4.sc 4 J.J.'f -.46f as?.t,t( b l.tl/l 3.(! / 3..46 /. M Q- Z.VA y.tn.jt u 4tl «,S( 4 J.43-.m '.<> \.Ohl 2 4.8E / ;.4 or.ml 8 J. K 9 4.*bf of.nr o/?.b? 4( r.r. us t.r«t «.b*( Oft -38-

JAKK - Dat'/Codc 94-3 Table 3.5 (Contnued) (/) M NEUNH ( T.SO - 4.9) ( 4.9 H Alt.F H CM 5. l.tjf-oj.4f.oo l.lte-8?.?l *r.r. -.*) H *tt.f J.ftF JJ.O.S5E 4..T3E- >9Et.2EO.?6E*U.SC.94E-.ft.E'.WOO 3.«8t*?.J(*OO.OC*.»E*.9E> S.5E.JE'OO.?«-) 5..5-H.C.JOE- *.Z - BS.O.94E-? 9. S.BOE?.S4E- k. JJE.4JE }.»4E-.Ul'.HE- 5.4E.OJtll 4.E.5 t.l?e.o^e- 4.UE-. J.«-l??.6f..?E-t?.EO.49E l.sof.e-2.9e.e-2 t.he.e-.4e-o no.o. ME- u ]. HE o? 6..8UM?.«-? 9..99E?.?4,.«E«. JSES k.soe-o.3e-] V.34E-O JO.O J.ltEH.4E4.8/tlt.E JOO.O 8.E- k.oleo) f.»f T..JOE-..O8E-.* E.6HH.*-'.uc-o j.o-r H.CU4 4.«9E-.rjc- JtO.O o.o!.e-ob J.O't.44L * 3,«rCh y.*t -o» 4..JC.-.JE OS l.lt-2.2.8 2.9E kjt- Tl Table 3.5 (Contnued) (8/) DOSE tquvrtleh AKO ATtENUAMDN F AC fob / RUN * HtuTftO* NCLDENl t rhehbv(k[v) J6 ( 8.9 6././OOl ( 6./ H «,F H!(CH) «rt.f K H.f H.T.F t dll.f HE 3.E-.OE-OS.6F*.ObF-8.6F*aO -E-8.l*r«O.OF.Jlt' OS 8 GE9.6E> l.jbf.58coo.j9e9.s$e*.3 E9?.*t'.«?E *.«*E*D «. l.?jf- -4«E'OO «.O B.4E-t.*6E* -?JE -.b*[*oo B.4JL t.»/e*.e.64e*.5.c*oo.9e-.he'od 5.99[.F*O.95E- t.8e» fe.lt.4e*d..49eu 6.EO.. H - b.otl.6e. 6.5.99E-.J?.t 4.'.OFO? 6.8E-.K'U.5F.4E.SOt.4E-4!9E-. 5.fcE- 4.4E- J.S9 -.E.tat-o.4F-.4C %.n o? k.ofeo? J.«l?.*ll- 4.ME!.l?t? 4..EfbO.O 4.VC- 8..JE-.4E k..we U.(4.Wf k *.«bl J.E-.4C.?.B(- /,<tu O-.OE U.8 JO.O KE 4. *. rn 4. uat- l.bl / J.?Ot tt.jc " /.Ol.Jf 3.8F B ].««( (. kt R.48 Q«.9 to l.uf. ".tf Oh.?Bl K.bt.*.- 48. 9.4t-».*\f.8 8.*«-M.BK-B -39-

.JAKK D.tc 9 ()o;j Table 3.5 (Contnued) (9/) jthuauh tfttrow J»<C H Alt.. Ml.l H «l.l M All.,,. 5..Or[-OB?. b?f «O,OM OR.b?t >OO. OB?.?f-. 94( 9?.4][ < 4.t 9 B-. J.JF 4 J.6- J.OJl 4 l.oh'oo. 4.89-.9( 4.8J-. Wt 4 p^tcoo 5..SOt 4 J.? )[ *.4)9 J. ", [ 'QO. J*)( 4 ]. -. 4l( Qt J. H <Q t 4.bt'?. S.HF J.E- < p.fll J.4(>.^9 J.OOL- B.OOE. Jl' 6 * ',' JO.O J.4f- Z.bTf- v.o.sqt-o 2. ja<oo».. J4E?.'.8./ ' J. 6E.E'?.?FF. "6f - 6.H.', fl.jre-o!. l.bje-.8e. BE t.*bt J.4E. f «O.E-T /.Jl.'.AF.\:»t-Ol J.Oll-.8f?.8(-tl 9.9.bf r.rr.jt - t.lfl.?.m( <u l.«4f?.*- 4.9JE l.4b(- b,»j.64-.*n -,??t-oo l.-'be 8.V?f.?t r.ob T.llt'.89*-.ort to.6 l.f* S.Jbt.m T. ll l.?5( }.«l B.9H *.Bbt.HE.4E (.S4L.6 J.lSt t.tffl??.bot Of.?.**F-.»F OT..U l.jsf.9?,6(. - *f \.*\. /.!»( U.*- r. F J.OJf t.ot U.Ol.4ft 3 6.b»-Q2. «. tj b.af? J.VBt j 6.*?t *.!?( * l.?jt «..'«-!*.Tl?.JW 8..AE 4 4 >. O.tt 4 ),l!l ) n J.vo OJ s.?f n J.84 oj J.VBf } B.9 ) J.W "» t. J? OJ J. wf n.m!.v. OJ.:u n.m.mr. 6 t.at?.?<tt..8..bt U r.blt. n( j.n o?. '"»l J.»OF?.OJ J.?*l l.tfll J. > * J» 9.fl» OJ.?j[!* 4.o OJ.JM /,j'f o :. J»t 4.RF lt.o os n.n bo.o J.»bl S JAO.O. S, -' U.t,M Oh. " t \ 't. 't S. ')'. ' <! <t.jhl Uh ". "b t.b.' d * 64 Oft /.ht B t.v. >".'.( k> :P(!«.^ Of..4.M <. n u, J.fUt '. ) J. -". ( Table 3.5 (Contnued) (/) U 'FNAl ON ) ATl.'jU lors nf.*eot htntt Kfu'.3..') S..On -?. J *.«!{.4l -JO?C, ^.*be TO?.23t*O 8.**f.4F-3O :^.O J.*l[.6F * *.»") t J.:tfC JO.O. l^e.bf *)O J.:( lo 3.* '"O,»t.b - J.bf "JO r 4 4.Bt "JO a.^*t to J.JBt- j.flfl o j.aat «oo?.?f o.?t *oo.me?.*-t 3.%6f *.4 *.?f-..- '.'f.. >fl 6.*">t. 8.9 4.Hbl. 5.? 3.bAf. l.sm? J.OJl.J*E n r.tn o r.obt? >. f o.6?e.^! «-.O't Ql? b.blt J.J"f».4l. Jft. JE'OO V.tll? *. J."f 5! b.sje? f.bj *.4( b.?! J.w? ^..'o^ o r.wt «..v( o.flflt! J.-Cf.?JF-!.6*!..'f??.«4(.?Tf \ J.Jflf Of 9.HE U l.lf.w?.9.me?.j JO.O J.8E-J J.O.'OE-U J,?H?,CJ ".*Ot.bOE J 6.Jt ).O 9.5E 4 3.E.4t J J.V l.«be U 4.U6? \ 9.94 u.flt o j.;r> u.bo o *».Ml l.?*f-' J.6.Ollt. "*t- J *>. > tf? 4.«ot or 3.JOt.OH U l.btt.. O.G 3. 3 r 4.. 6 «.?5C OJ b. t (.4-4 9. OJ..or,.. 5f. *..JM. 5*.?.. 9F >./ OJ J.bJf v, J. UF?.6bt.ObE OJ.ao n 2. OJ. J.»[. f.?e - 6 4.6T-ll >.B*f t*.5?* *.jot..aj[.b.b? '!.«H?.6<E r o^!..'4 \H %. )«!.6JE S.?<H 6 J./bt n ^.4 9.4(4 l.?b» 6.JH.V4.* O.DOt QO.O..QOt' Q.OQt O.JOF'JO. "JO O.OOf "jo O.UO.,«*.9B( \T l.?4 :.6»t 8 \.»* 9.45?. 4 * r j.f O, n.j.m O.OOl'llQ. * O.OOf UK) O.Ol "to. * O.OOt' O.OOt *GU O.'^O "*JO -4-

.JAKR 94 3 Table 3.5 (Contnued) (/) 5 tulvaleh AtltXU*!DH FACOH OA htu'floh H *[.F.9E-9.9. o.o.o<t-9 j.*5* n.o.oeo s.n'oa?. J.S*f»O..St-.?F» All.t?.?bl 9.flll» b. WE -.?rt*oo.o?t J.JB»oo.H J.Jf'OO B.BflC -.b[» 4.8t- ).?f J.lftt-.J/F*O A.r.6E'OO *.4t «.49F«.5b ' a.toe O.e«(- to..?'t. Wf " T.6E".*?.«t*G 5.9oe-? s.e-o. 4.JE-? 6.4 5. J.OH-?.6BE o.o.4e w *.rjf o 9..?JE? J.?B -.Ot! ).>'U 6 \.Ol. l.sje-u.4e?.*f tj t.ltt 9.E 4.J?f.«or uo.o UO.O.4E.SFOJ t.vjl'* UU l» *.J4E J.t-Cl?.?F?.E-*.ff-J.* * J: J] * JJ J*..OJE 4.C M.JE?..J4E.M OJ *. 4.99* t.»ff-» *..EU 4.*[ 4 o.o r.obt tr.e 4 oo.o?.»«{ ; r.bjc-o.,!t-xr.4r o J4. j.be-ta.*f[o *..46E 8 6.l4Fb..9E 9?.*Et k.or s l.ofat-ll 4.OF. Ob l.»m».e Ol J.!«( (* J.JE- o.oot'oo o.oo O.OOF'OO. 4. O.DOt > O.OOr'.[<..tOO O.OOt'O.(< O.OO>.') O.OO Table 3.6 Dose equvalent per source neutrons and attenuaton factor of secondary gamma rays n ron (/). DOSE tqulvalenl AND ATEHUKTON FAC (4. - m.ooo <CN) H.f.O.JOE - l.t.le- (jn.ooo.e ).) Ull.f < JVC..' E 3^. Ar.r.M- <J?S.O. H AT.f.HE.5JE (3. -??.) H *n.f.9f.2. l.bbe - J.JU-.O l.obl U.3EO JO.O.45E-?.4E. 5.4E 2.JE-O? *.». HE. jet-3 4. J.BE.E..E.L 2.E- J.OF 2.3F -./EO2 S.HE.9F HE -?.M?.6Bf.8 J.??l 4.9?t? J.(.rrt?.\n o?.9t J.lt.8*.*m?.E??.bSt? l 3.9E E?.lt ( J.t.9E J.K.?\.BTE -? f-.bt B.9JE *.«8F.6E - J.6E! l.olt?.6).v?l.jt. J. ll :o.o?.o«. ;.J)(.4E 9.6M -3 WO.O.53E-M.f 8..9E 5.Bt 9. 6.*F-5.E-..98E 5.HE 4..tOE - 5 J.C f*o. b. Jt b.sf 4. «.4f..SAL.4- to.o.rr.44( lbo.. d.-oc «../ b.)lf ' 4. ).«r ;.f /.9E-. l.-)t U.F l.flt ). -.H') /.HO *.St l.se 4 6.«*L *, ;t 4 HE D.lt Ob t 8 \.-Hl (..9F.4 U.4(.JOE?.4U r.fo3.tbf j.b.'f.4/e- n l.tm 6.BF.?E. lt J.E Ob.4(,( Ob.( U t. lt l.lftl l.?l r.obf-. J*t 4. ( OJ >.*6t S.E OJ.48F?.)lt 4.E l.blf 4 V.MF b.?jt *.F B. -U bt ) Ol J.flOt J.?!( r-oj.6ft ]..oor.mf l.?f.( nt o oat o tm.9.u 4.4t( 4.6 4 r.sot o \T.4lf ) \r.f 5 U b.rot Oft Ol Ofc 4*. f.ot?q?.»r on - 4 -

.JAKK Date. :t Table 3.6 (Contnued) (2/ losf (QUVALtNT ^. l.olf. 4.fl l.o 2.?t Q..JOt.. 9.M l.asf.? l.*h a.b*( l l,«m? f. tot 3... 6...( no.o no.o JO. uo.o ). 6. to.q 8, 9.. 3. *. 3. S.Q.. *. OO.O fl 4.lf l.oc 4.J'.SOL? b.otl J.. 4. J.. J..bl< U. ;.W( t..jh. lt.ml /.'*. y.tm.v.. M 4.fJ!.: l.bo.4 t. J 4.) J,* /..Bf ). *. Ahl Vfa AYt / bo J A.?t Table 3.6 (Contnued) (3/) HCK). tuq. 4. ), *.F».*l.4? N,., ( 4.fl<] > :'O. o. H AT M A T. 9bl....9f '. ll. M. Jbt. A.9 '. 9 ( H All.(.Oh.K.. /OL.54. l"»l..,...-,o... * ( 3.3»,..'. /t b 3... 6. *.O'f.9 3.f ;.44? J'f??.er J.M?.(.r>l 3.n o:?. :"n '? l>.f '.DE..*'.*.»4[ j ; 3.4?. ' von 3 - *(. t>e..,? :. 3? t.v9f.*t.l*f 3.OH }. )*». fldf 3 j n l lh u 8 9 4. ;.. 6.... 8..O. q.. *. l.bbl-?.*f. 3t 3? 6..an «.J( 3.n 3 b.6jt 3.U.3M,/M? 4. 4(.Ml 3. 3..?.aot 3.sr 3.!?( S. o; l.ssf 3. HE 3 '"( 4 4[.L.H.R 3.(! 9. ll...' f l.flll b.o. /t *.Abf.b?r 3.9JE J. J.9 J.J9 3.BF t./f.9 3. ::.4.n 4. o?? 3 nv o; -lt? UB? A -*.*f b.8 f. 4 t a.4 U.". J?. U,..'.4. 4-4(. Jtfa. '8(. fol.bo( ).t. ll. ). Wt 3./ 3,n.,.!( 3.A.) 3. / (.OOf.b f. J<( -. b t. 4(. K.4. J6 J.3,f?l \. f.3.k. /nl..4* 9. t,,. (.9' t. q *ot f 4 9 4.'.' m 3 t 3 4 bll J3? SM.:r?.66 3. ',9? ) lt? 3. * r? t.3*.?» -. * o:,*f 3 9.«(! J B.f 3 4 4]f -3 4 (tf t ;a 39 JO 3 33 /. S.. So. 33 34. -. tt 4.af 9.34( 4 3,bt.4b( 4 3.St b 9 «..t. m j.m s.?( 3.m s.m.3 6 A.63* * * ] 3.m.r Off,., u.on.. r.ro*.s4t.ok. 93. t 9.9M * ^ b.*j9 -* 4 Bt * b ' (, 3 All.'V bot?t 4 6 t «4 ft * t ll 4 b b 36 B 4 * 43 *J 3..? 4. lao.o «. 3. 3, J., m 9a u -4 OB ' 4 9 t '.3 3./(.Olt /,/lt. * \ / / Rlf M Ofll r.n.. n. r t 9 r. 9 ro?r /?O Ohf Ob n n A K on 3 OH - 2 -

JAKK [)at. /Code 9 («Table 3.6 (Contnued) (4/) oosc esuvaltm AUHUA ON F*C QB ** UZOMOAV GAMMA MCM HFUtRON FHEC«(NfV> 8..). < 9. 8.) ( - 6. RCCM H All.F H AT.F H All.. 6.bFl. 6. VE. 9(-.lt.>8E t l.>t??.4«f.af ;.JtF 5.. 5..29E-U.SE.-. OOE. HE. 5..9BE E l.bje.64e.69.3e.4f 2 4..4E E?.JE?.BE.SE J.4JJ *..!!?? l.ojf?.2*».*6j.36e 5. 6.6E-3 E.99E3.44E T.Sbt S 6. l.wfl! 65. 4.4F.J 4.Q6E3 l-?t 3EO.SE M OFO.E S5FO t.bof?.46e-!. F-?.4-? B.9E-3.Jtl-O? 4.9C-3.9E? OE-3 B.O l.ue-3 l./j-j f.hf OJ -tf l S.OE OJ. &.9C-.+ H -. toj 9..E..9SE 4.E-*.' J.OJt-*.ll 4..66E- «)..*- 4 < 6..) A.F J.9C. E.HE l.ottll.9e? 5.6E.69E.E?.E-?.J3E?.33E 3.E fc.*l( 3 - ME?.E?.ME- j.roc-tt r.ot-4 r.\<n 4 J.J[-.ttl-4.rtE-.E f.oe-4 9. cn t.9e *.4j[ n J.mo* J.Ot 4.c- j.nt 4 u.oro*.. fn.r.4 ],;(U.9E 4 J.OtE.OU'Ol T.tlE-U.3E4?.**t lfc t.t>t- *. :tn.*?f-o.u H.39t H.Ut 4.94t.oar» t.tjt ot «.«E / 4.j( o CU.64E l.ttt \t.tjlf-ol JO. c-r.n o.bt.* l.few 4.tflt Ob.ll \T fl.obf *.4SE -t l.rt-o 3..9 2. 3.H.E- UtOCOt 3*..4 lfco. 4.4J Bo.o.ro.r *,:n or 4. t.u 4.HE V44E- 4*. 9.*E 4&. J.fJE- 48. l.?h!l.3e?.4f- ( 8.b8E-2l.3C OA.E?.9JF 9.BF-.*- T. -.Ol -Oft 9.6??.6E OH E -?.4t Table 3.6 (Contnued) (5/) RCK) H..E-. *. -..E J..3E 3.3E.8E?. -V.9f!.Jl?.44E-? l.obe-?.oeo.4e- E-2.2EO?.K-.4E 9.6BE-3 6. 3.BE -3.OH l.dft 9.SS OJ.?.*«9.T..DE -U B.bOt 8..Jlt-U.E J.lt 3 9./8F OJ!.84t-3 9.JU?. JOE 3 B.bbt 3.B6E l B.4f OJ.?E-3 t.4e.je 3 8.E OJ,!r 3.WE OJ 3.OOf ) a.ttoj.9(,t u r.or OJ l.at -.3E '.6*E 3. 3?.ro-3.6B-.BF U.?BEO3.6 3.U -OJ l.*3f 3 l.]»(o.-3 l.b*{ 3 9.3-4.3JE.E4 4.BE 3 *.*t-4 4.JOE 3 l.89-4 J.HC-OJ. *.96E 3 JO..8E-4.9F- *.. \H \*.6/EOJ 5. 6.9S U.E OJ 6. 4.Jl( - 8.49F-4 UO.O. 5.9F* BO.O.6C 4.3EO*..tJfK ll.m 4. 9.8-4,3t?6. J.48E-U.9 B..3E r.8b< 6 JOO.O 5.E 6 3.43k..9 6 l.tlo *..JF-9 6.th( 3B..Oflt 9. 6f *. «.*E.L8 4...9E -.* 8 46..3U- J..'9t 6. 8.Ml.*3( 4.JE.E3.4F - J.S3E * «F J.JF l.?lt.t 4.At 6.,'t 6?. lt.'flf.*4l??..2.4 3.4E 3.JE 4.83E OJ fl.64fll.3j( Htll 3.HE 4.S9F.fctO4 r.3t.4. ll fc.m «.E 8.<m-. 4. 6.at 6. f 3.6-.E 3.8E ft. tf -Ob.HF» l.ut Ot 6.V? 4.?lt OB J.lll.4F OR.C USE OB..-9.^6 4 6.. 9. tl.9\e * /.t-6..u-* «.J9E t».39f4 t.66t-«*,34e 6.rtf.**tf.J!,?6- l.9?f B.M 6 J.lll - B?.*?! Ob. -6.MD6.4 9.9*.3lt? B.3J 6.8 3.t( 8.* -?.U 6.6.6?t 4 l.ut?!.oh 9-3 -

D.lr. ( <,<!«<M. Table 3.6 (Contnued) (6/ tnuaton > *COB / RON tflcon NUROR fhrcvmv> JO..) R(CH) Arf.. 4.Jt B.9 OJ...?(. 6. ftl?. /.WF o?.? l.**l l.lfcl b.,vf.*-!.*![. l<? b. lt?.? JO,'. '.» All..6*: l.lbt?!.?f.bt.a«o?..e? Ol JO.O. ll- t. 'll OJ 6.*HJ S.Wt-OJ.9E U M/f OJ l.jbl J b. 9 4. 5. J.Olf U.HE OJ.BJElJ k.sfat OJ.&E J b.jtl OJ 6.?.4S[-J.*E OJ.?B( U t.lbt OJ.E- J 6. lt OJ 6. t.9a(-\s t.6l OJ.a*t *.?lt OJ./ot u.eof OJ fo.o.mt u 6.J?E OJ.4*.JBl-U.4b( OJ f.o.jot- u.ajt-oj.2t-.4 OJ t. ll - J.O?f OJ eo.o.oe-u.jb oj B. 9. b.bjl «..49. 4.4.J9f U l.bbt OJ -fjl- J.6 OJ l.bt U.jr OJ. -J.F OJ l.ojl J 4.69t OJ l.oot J b.-be OJ J./U 6.2E-J.46 b.lt-oj.e J S.9*t OJ.64 J.b( OJ.JJ J l.jlt OJ.OSf U 4.9BE OJ 4.f 4 J.JM OJ J.bBt 4 J. OJ..4E 4?.6f OS JO.. U( 4. OJ /.Ol-.tot OJ.E 4,«?( OJ *.!?l.h OJ *.. BO.O.4f 9. b.4f 4 V.U lb..-e 4. J.96-6.bt j.bl t. /( 4.. l.lot t. l.fbl. l.blt T.9 l.'o J. ll b.uf. lt?.j*[ n.:u Ob «, b u?. n( os.! /»,Vll Oh ft. U 4. ft Oft J?..Ut B. JBO.O b.dt r.rt on 4..Jt J.Jt»?o.o «. rn?.\? on 4. l.tbl \ "J.HO Qt 6. l.44(?.4t 9 *&o.o.vaf?? ". J JO b.on?o ;.oo H. 9 -. /.'. j? t : :.r<.?r?o b. J. JOf 4. flt.. o; t ".«>*. m m.u <>/ \. jo,") t. ;'B on Table 3.6 (Contnued) (/) jl r.^oo u R<tM> H A 2 ( 4.9. Ar.r Alt. J* < U. (.) A.( ( lo-o^o fl.l*»o H All. S.O l. m -.b O.O J.JU u :. s.o.oot- t.a. J-.'Jf?.f 4.*«t.m?-.Mf? 9. OJ l.ojt?.bflt? B.ftH OJ?.t.3/*?.3J *.Jlt!. F?. lt?.wt l?.34t.lt - B.C OJ l.jlf? T.\*.- ] 6..K OJ J b.obf OJ «.? J.6*[ Of J..FJ.44f OJ.ll U l.olt OJ U l.&ot -OJ lac- J l.blt OJ U J?.ost u s.rt OJ.bbt J *.<J4t OJ.Jt U 4..'. OJ 4.t OJ 4.JJf OJ 4.lt OJ.Bt J 4.Olt OJ.( J J.Ot OJ.4t J J.f?tOJ.9t J 4.U )!.?f J J.9.M OJ.Olt J.BOt OJ. j.o. f -u SO.O fl.t a.o *.» J.RH J.«"t OJ. *.4H* J.OOt OJ.?Jt 3!.b?t 4 J.O?t OJ 4.SJ 4 J.BOf OJ. J.4.. t 4.8-OJ l?..3 JO. 4. l.j f- B.E-* no.o J.J; wo.o.j mo.o.a. 4 no.o 4.a ).«4t-4 b.bll tb.b4f 4 4.9t \h.?bf 4?.?{ OJ?.«J 4?.?6t OJ,t-J l.llt *.6E OJ.* OJ ^.S?f.! 6.E 4 J.M b.?4t 4.*jr ].U( -* B.fl4t 6.Bt 4.4f - t.n* -o* J.ZSt-«.OOE 4 J.lll t. 4 Ofaf <U \ t.t?t 6 J. )?.Uf.a -u».?ot.9e \l 6.JEb.9* }/. ll U 4. t, 6( n s.rot Ob lt.'..9-9.b /.! 9.JOt B l-?bt 6 Ht V.4 )t».4h ;-.OJf-.4 ro.nsf oa.jjt.--.9/ }S.6F B l.llt.ltt.!l 6 fc.obl M l.jot Of ft.m-.lfll OB R.8H.8J Oft.]*f-?o «.ot nn j.«( 4.t oft.vf L.'M-OB.. ROt OB %.)ht.'.6 "9 4.9bF.4J O *.- J.J[ 9.9T J.J( 9 46.. Ml '.Q'l

.JAKK - Datr/Ccd' 94--3 Table 3.6 (Contnued) (8/) SF EOlHVAlENl AKO *tl[hu*t ON factos SECONDARY GAMMA -. 493) >, 4.49 J... All.f H A.F AT.F H A.F.4. E- J.6 ft. J9E- MfEO? [.»«- 2.9E-? l.*je *.9/Etl.J9F-.99E-! J.BSFll.E.JBE- l.lbt-?.e- 9.2SlO 4.9EJ.66E- 4.8E.6EU 4.E-OJ l.fcbe- 4.3EOJ.69EU 4.68EJ J 4.6E-J.E- 3 4.4E.JkE J 4.OOE-.J J 4.24() l.jc 4.4EJ HE-4 2.tOt -.**.JEJ.9E-*.6E-O.6-4.9.E 4.J4. U 4.4E J.4E4 b,4(4.9elb.lf 4. >.E 9..4E- b.s 4.JOE- S J.HE-O t.^le- t.sle-o*.oe-u J. JOE 4. J.E4 9.4E-6.lfE 4.«of t4.mo* r.«e-\t.tn o * 6..lt-t/ A.. 4f- f t.*ot Ob 8. *. E-.B4E Ob 4. JOE B.8-Ofc. t.6?t-8.e Ob.63E-6.E& a.6 \? j.??t o ).!!/ *.*Ot6.6TE-.2?E- Ob.4E W l.jtlol B.9-.btEOl.E.E.K-.ll l.lfel 6. 6. ll f.je-o6.64 t l,4t * 6.4c-M t.o*t or JflO.?t-or 4.ROE-8.Olt 8 o.o r.botz.j/t o? O.?.6JE "-.flt r.64 -;?.Jt OS.6E? l.obf.ft?? >.aof-o Table 3.6 (Contnued) (9/) RON SECOHOARV CANKJ (CH) AT.F H AT.F H ATT.f H AT.F H AT,F 3... s.9 E-?. E.4 Ell 6.49E.tn OJ OJ?.*&( 5.BF U ;.» t.bb OJ?.OBf. 4.b2l! 4.4( l.be } 4.HE J.b?f OS.9.fclt- l.doe l.dt.e -3 4.JE 3 6..69E U.3Bb- J S.OOE.8F OJ OJ.9E J U l.ue. rot.9e.66 U 4.89[ OJ.4.9 3 3 ao.o 3 ". 9S....96E4. 9t- 4.S8E 4.blE 4.9*.6JE 4.9H.6E 4.9F-./E 4. l.lt 4-3.BE. 6 -HE-.8 ] 6.8E.9E 6.bE- l.obeol 6.89C n!.! ( 3 l.bbe f.eoc 4 so.o 4.HE n 9F-lb.JOE+ 3.44E \b.jt * J.5.BJE l.ftt XT.tlC 4. ko.o.3 8. 6.JOE' B.E6 &O.O JOO.O 4.h >E B.E6 '6E l.llt 6 4.&.F B.E-6 l.jt B.lbE 6 4. l.'jtf 9.9E ' 6. 9.BE-O.* J8../8E..ft? 4.-8.Ut*O.( '(. 4. l.bot - 9.6E '.9F U.Bf 4 4.JJE J.9BE.* U.9t.UH.9E 6 4. 8.49-6 \.nt «.E 6 Q.QOfQO O.OOt *.96E - t.4f 4 9.9E 4.E OJ.4E U.9E.JEU S.bf 6 4.4SE 8 3.BE 6.9E B.6! 6.OOE' O.OOE'OO.' O.OOt' 3. lt tl. lot.s5e b.44 Q-..U ],r-.e? l.lt.e tj.btjt 6.att-u?.*m Ob t.4t 8.?BE Ob l.lfcf-9.e.-9.3e 8.3E LOU..-bl - S.HM PB O.ODf'OO O.OOfOO o.oo'oo o.oot «o; *4..Ab(*? 6.4Jl.»Q.'.OOf'.OO(*O.*.*U.*.* -45-

AKK l);tf/('((lf 9 OlH Table 3.6 (Contnued) (/ DOSE QUVMFN MCDN MLURUH (HtHGV(HfV) fl(cm).. S.D?.., -.9/) t A n. f l.?*f-.99 J.?f -? j.m oj.s 4.BE- J J.46f OJ J.BE OJ f.qu J 4,?/l OJ./ AU. 4.9/E.Jt OJ. /9f.88 'OJ.OM. OJ /.?? -J J.4f OJ S.*4l - J J.VB OJ.4J At J.Olt 4.4t 4.JJF l.bjf OJ ft. /at J.4! 6.J8E J. HE./9 8. All J l.lof OJ?./E OJ.2E OJ 4.9F- *r.( t.jjt?.8flf OJ 4.9?» OJ h.lt orr j.ot o? l.»u- j 4.9E OJ. J 4.6 OJ.J4CJ.E OJ. ll -J *.9J( -OJ.J6E J 5.9f OJ. J S./9 OJ»ou a.oat OJ * J '. /E OJ./?.U?. JE -a? B.tll '.O3 fc.ut -OJ... na.o to.o t/o.o mo.o 9.5..?4. 6. 8..SE.4E OJ l.t4ej J.9f-4 '.b'l-t. 4-* 4.m b.4(-4 J.BflT t.ot * 2.E.4JE J.E.J9E 6.6C Oh.9 OJ. flt.uvr J.? 4 o.«l 6.JE 4 4.J \b,t 4 J.Sbl-?.6. JM J 9.Bb Ofc./E 4,.m 4?.flt OJ. 4,9ot OJ 4sr s.6 o.oa u t.ttt 4 b.bje-6.tfl 4 4.9f 6,8 ft 9,-Ot.f>Of OS J.*j9t \T.V OS.lt f.?! OS j. n n?.?b» n B.S b J. t( n j.9<r o J.OH OJ.4 OJ l.bll.6 B.[ 4 /.fl f.64 OS. Ml f. OS.OJt U.lt OS. '.JOf r.tn 4,n.B4.n 4.9Jf J.bU OJ?.Ht OJ.sr-aj!.? ( OJ.E t.olt '* *. -* J.H U.«(-*?.?!( t s.lot.9 MC-. OS. OS J2. J4. 56. 38. 4. 4. 44. 46.. HE 9 S.?t /. *> «"t 9.OE-O/ '.*E..6E? 9. Ut OB J.lflt OB O.OOfOO,* O.OOt' O.OOf* /.4l S /.99F /.8 9 J.4JF /./ 9,<6f Of J.6/ O.OOf ' o.oof <oo S.SBt Ofl O.OOF *un o.oor ><>o.oof* O.OOF >Q. '. ' O.OOl* O.OOt'OO.'.».Kt 9 4. O'.Off 9.fO n/..*(? b. M[ OH J. JOf '. - O.OOf «O.OO - > "JO.'. Jl 9 J.9 / n.odl?o.btf o:. '."(? b.4 t Ofl O.OOt *U. < O.OOf * O.OOf< a.on)*oo o.oo '.*.*.4/E 9 S.6(.9t O.OOE'QO O.OOE «U O.OOE'UO.*.ll-'.66. b.3«( OH O.OOf' f.oof*.* o.oot <oo O.OOf'OO Table 3.6 (Contnued) (/) OOSE toulvallnt AHO 4MfX»tN FACTOR lecuhdahv GAKMA H A.F Bl.94E 9[-? S.6E-,4t-,lflf -. Or J.flf.3JE-?.6-?.JOE t. 3* 2 J Q?.HE!.UF J.9/E.9 flf-. JE? -?9F.F-».S«F- 4. J.4F-3.jr-! J.lflElJ J.f 6.* o? 4.JJF-J.Z6E- S.bfE J.Uf J.E j.rot M.trt o KM J.JE..8/E-J.Bbt!.BJF-U.Tf >..*lf-lj l.r?l.jbe-?.4/t- 9.EO T.9E-? J.JE? J.3JT-* 6.92E-J.92-OJ..SOf 4. l.otc* 4.EJ?. b.?l(-n.9e "OJ.4Ot OJ S.?OC OJ,/Jt - t -JE -* /.6K -n. 6. s! 3.8E HE?.E *. ur o?.e 6.9?E -..B/r ) 9...4E6.J6E.S24.SE 3 JJ?(..JE-B B..E- B.ac-ob JOO.O /.th-h.jko6.9 -«6. 6.o?f t«?.ror ot l.lof B S.JfC- f 9.4*[-o.t(-?R r.jrt *.llt- l.ll JO 6.9- l.«?l.mf J?,t?.*ot 6 a.oot^oo o.oot" «. O.OOfOO O.OOf too 4?..OOE <C.OOf" 4.D O.OOE. O.OOE'OO. oot. OOf *. oot..oot.oof...ooe....oof...ooe.oof on... oot '. oot... OOt' O.OOf< -46-

-.A. ) Table 3. Fttng Darameter to fose equvalent of neutrons n water.!ln / l a rt;t: m n *.er / S"C'. nlary G. =. Bay Dos - F.qav al. nt n Katcr? Botn!. Bounl Ornap En.. SylMcU a q»., re Grvup En' rgy(wev) l j a3j aej rcj bj K ( ) - 33E* 32. Z49E* _2 93K-C3-8 533E-E 5. E-J -. 365E-2 9 SCE+ 2 -. 44E-2 E( ) = 4 OOEt 2-3!3E' C. CO4E-O2-4 33E-CS 4. O42E-8 -. 325E- 9 SOE. 2 -. 35E-2 E( 2)' 3 2 -. 2SE*! -2. 936E-3-8. 3E-5 5 464E-S -. 39E-2 9. S:E- 2 -. 5EE-C2 E( 2)' 3. SE. 2 -. B3E. 3 9 8E-3-4 3O6E-S 4 32E-OS -. 323E- 9. 5F.. 2-52E-2 :( 3)> 3. SOK* 32 - -3. SE-3-3. 42E 5 5. 553r.-O9 -. 43E-2 9. 5;;:<C2 -. 2E-O2 Ef 3)-- 3. 5E> 2 -. 3 OK Jl 9. SSJE-3-4 32E-C5 4. 6E-3 -. 333E- 3. S> 2 -J. 64E-32 E ( 4) = 3 2SE* G2 25SE -3 38E-3-3 3E-S 5 54SE-9 -. 464E-2 9. 53t> 2 -. 9:E-2 < l = 3 2SE 2-843E.! c 3E-3-4. 32E-O5 4 53E-8 -.329F.-H 9 5E* 2 -. 9E-2 * ( S) = 3 3E- 32. 25E. -3 3E-O3.3 3 3--36 5 639E-G9 -. 49E-2 9 SCF. 2 -! 24E-O2 E( S) = 3. OOKt 2 -. 84E.. 94E-3-4. 292E-S 4 48E-8 -. 33EM 9 5E.2 -. 2CE-2 y. t e) = 5,-' 263* -4. 9E-C3-3?E-C5 5.69F.-9 -. 53E-2 9. 2-2OE-2 E( 5) = 2 5E. 2 -. 839E.! 3 4S3E-3-4. 22E-5 4. 43E-O8 -. 33E- 9. 5F.2-236E-32 E( ") 2 -. 263E. -4. 392E-O3-8 82E-OE 5. 94E-C3 -. S94E-2 9. SC.. 2 -. 2EE-O2 E( ) = 2. SCE. 2-833E' 8. 95E-3-4 25E-O5 4. 5SE-3 -. 336E- 9. 5E»2 -!. 262E-2 : 8) = 2 "SE. 2 -. 26F' -4. 5E-3-3 3S5E-5 S. 3E-9 -. 6S3E-2 9. ;OE* 2 -. 299E-2 E! 8). 2. 25E. 32 -:. 83K' 59E-3-4 2BE-5 4. 6SE-8 -. 339E- 9. 5E' 2 -. 29EE-2 M )b? C:K- C2 253E- -5 M'JE-3-9. CSOK-5 5 22F.-C9 - E39E-2 3 SOE* 2 -. 343E-2 E! 9 = 2 E 2 -. 334E' C 54E-33-4. 26F.-O5 4. 44F.-8 -. 33E- 9 SOE. 2 -. 342K-S2 E u ) -. J3N + J2 -. 269E- -5. ME-3-3.3 6-6 5, 25t-O3 -. 2E-2 9. 5Or> 32 -. 39!-. -s; r. () -. K 2 -; 33 E* C E. S9SE-O3-4 2BE-S t. 2E-OS -]. 343t'-lJ 3. 5E 2 -. 395E-2 F () 5E* 32-2OE* Cl -6. 433E-O3-9 Z4E-5 6. 445E-9 -. 58E-2 9. SOE. 2 -: 42E-2 E (). EOF. 2 - B26F- 5 333E-3-4 3C2E-OS 4. OE-O8-3SE- 9 SOE 2 -. 46E-2 E+C2 -. ZE- -. 54E-3-9. 283E-5 6. S3E-9 -. 34E-2 9 5E» 2 -. 59E-GZ E(2)=. 43E 2 -. 39E Cl 4 8E-3-4 32E-O5 4. 32E-5-3EJE- 9 5E 2 -. 58E- r.(z>' 23F. 2-2CE* -3. 433E-3-9. 436E-6 S 534F-C9 -. 83E-2 9. SOE* C2 -. OSE-2 E (3) -. 2E C2-3! 2:. C 3. 829F.-3 -. 35K-CS 42E-3-35SE-:! 9 5E.32 -. 699E E. 2 ". -3. 2S9E-O3-9. 58E5 6. 65E-39 -. 82BE-2 9. SOE' 2 -. 96E-2 E(!4)=. OE 2-3C8E' c: 2 63E-3-4. J6E-5 4E-8-36S--! 9 scf: 2 -. 69E- 3E 2 -. 2 E. -. OO8E-2 -. 3E-5 2E-9 -. 9ZSE-2 9. SOE. 2 -. 9O8E-O2 ES)=. E 2-84E 2 33E-C3-4 442E-O5 4 28E-O8-39E-U 9 5E 2 - S98E- h:3)= E () = aok _ ; -. 2 C! 3E-2 9E-OS 5S3E-G9-2.5E-2 SOE. 9 2-2 OSE-2 t(8)= 3. E - 3 SCE 53EE-33-4. 5E-O5 ; 4 39E-O5 48E- - -2.4E-3 9 SOF 2 L '' -) - - j 2!E 8 223E-OZ 25E-C5 8 62E-9-2.3SE-2 9. 2-2 23SE-/ 5 OF' 3 3E! K ( > - 95E : 5S4E-4-4 54E-C5-4 48E-3 4E-! 9 SOE 2-2 226E-C l-'t ~) - F (3) - CGE c; -. 2E l - 339E-2 -. 36E-S 9 SO9E-O9-2 6SE 2 9. SOE' 2-4BE-O2 E (3) - OOF - 9E c: - 855E-C4-4 92E-O5 4 J8E-8-4 9E- 9 SOE*2-2. 4S9E- ECUr 6 53F -. Z3E - 622E-2-3E-OS O3EE-C9-34E-2 9 SOEt 2-2. 569E-C2 E(9)= 5 5OE - E -. 338E-4-5 6E-O5 4 BE-8 - S63E- 9 SOF. 2-2.623E- 2) = 26 3E C! 53E-2 625E-C5 -! - 5E-3-3. 228F.-2 9 SOE C2 324E-2 ECO!' 5 OOE S2E 3 - "E-:3 -S 22SE-5 4 93E-C3-522E- a SOE 2-2. E-2 5,O:' - 253E.56E-O2 - J 3E-5 33F.-S -3 686E-2 9. 5 3E - C36E K2r(22)= S.OOE c 5.5: - 353E-:j E.:2) CJE c: 25E - 94E-C2 - ES4E-5 44E-OS -3 CSE-2 9 5E 2-2 3O',E-O2 -; 2- c: -2 39E-3-6 O5E-C5 5 968E-3-9-:E- 9 5CE 2-2 5S2E-2 '3E - 248E -2 95E 2-3E-5 335E-O3-3 54F-2 9. so: 2-3 5ZE-2 4 SCE Cl - 64E c: -4 533E-33 2SF 5 E SE-C8 -; 59E- 9 5CS 2-2 59EJ2 t'.'!) = 4 3 -; 24 4 F -2 5OE-O2 -.!3ES 5C2E-35-4 3C3S-2 9 SO!: 2-3 93JE- K(24)- SOE-5 43E ; -5 39F.-C3-5 6E 5 E 24CE-OS -2 4E- 9 SOE 2-2 BE-3: 2 3: -r CT -5 542E-O5 5 3SE-3-6SE'-.'l S SOE 2-2 6SE-32 SOK Cl - Z36E -; 96E-C2-2 94E-5 5E-8-5 C58E-2 9 SOK 2 3E-. :(2Sy = 3 SOE - ;F 3-32E-:2-4 5S4E 5 5.33C-S - 83E-! 9 SOE : -2 4EE-C: " D) ' 3 :'A' - 223E 3 3 42E-2-2 55E-5 2 OSE OS -5 O:9E-2 9 5- DC -S :'.SE-3 f.l.z): 3 OOF. 6F 3! - CE-32-3.525E-CS 4 39E-3 - SS3E- 9 SOE 2-2 (szr c: E2)' SE, -: 29E Cl -3 S63F. 2-2 6'SE-OS 2 O3E- -5 SE-2 9 53:: 2 5 65E- K(2)= 2?SE -»E z\ - 93E-32-2 3SE-CS 3 E38E-8-3 3F. 9. 5F 2 -; 48E : Fl") 2 SOE o: - 2C3F - Z3E 32-2 HE-5 2 44E-35 -S 95E-2 9 5Cf. 92-5 f- 2?.} - 2 5OE *C! - CCr -,!5E-S2-2 54F-35 S43E-8-95E- 9 SOE 2-2. 44SE-C EC» 25- c: -l 3E -5 6E-2-2 6F.O5 2 UE-O8-5 S2E 2 9 5 r 2 - S5E- E29)-- 2 2SE E89E 3-2 45E-2-42E-5 2 45E-8-8 ls'e- 9 SOE 2-2 4S8E-3.' El 3) = 3E -! 24E 3-5 S3F. 2-4 63E-S 4 23E-3 325E- 9 SOE 2 8 2SE E'!)= 2 3F. - 63E -2 649E-2-5 S9SE-6 326E-8-5 223E- 3 SOF. 2-2 382E-2. (3) = 5E 2JE.5 93E-2-4 326E-5 4 26E-8-222E-! 9. 5E 2 6SE-C F(3!= 5K. - S93E -2 ESE-32 4 52E-C6 2E-38-4 494E- 9 SOE 2-2 3B2E-C2 F (3 2) - 9: Cl - 2CE -5 593E-O2 -S 5E-5 3E-S - 2SE- 9 53: 2 92E- E(32). 4 9E C - 569E -2 S4E-32-2 525F.-35 SSE-9-3 36E- 9 SOE 2-2 352E-C2 K {3 3 J 35E - :E -5 336E-O2 5 369E-S 4 93E-H -9 4E-2 9 SCE 2-9 934E- E(33)- 3SE Cl - S45E : - 2 44E-2 343E-5 99F-9-2 464F.- 9 SOE 2-2 39^: :(3) - 22E - 295E - 492E- -3 3E-5 3 63E-3-5 4SE-2 9 5E 2 9 35E t3)' 22E - t5e -2 S34E-C2 2E-3 3.43E-O9-383E-2 9 5E 2 -: 625E-: f'3s)= ODE! - 9 9-; ' 3 323E-2-4 3E-5 2 29:-;-.33-4ZSE-; 9 SOE 2 - BSEE-C SOS) = OOK Of - SS3E 3-2 83E-2 42F-O6 4 683E- -6 OO9E-3 9 5E 2-2 94E-C2 E(3 )= * 3E.C) - 5E 3 3O8E-Z - 38E-5 ; 335E-8 S (3F-3 9 SOE 2-9 6E- r.<3 = ) = 9 9E CO - 662E -3 ZE-2 222E-C6-2 C63E-9-2 5E6F.-3 9 5OE 2-2 83F-C2 E(3)= S ) - 35-! - 59F.- 452E-O5-3F.-3 64E-2 9 SOE 2-9 E- F(3)= 5 CK.CO - 56? -3 c: 23OE-2-2 266E-O5 4 SE-8 6SE-U 9 SOE 2-2 B8F-32 } E' 33) 9E - O35F. SOF.-O 32E-4-9 4E-3 3 23E- 9 SOE.2-3 5E-2 F. (35) = S 49E - 68BF. 2 S4E-C2-5 8E-S S E-B - 83E- 9 SOE 2-3 2 E-32 Kf 33) ' 3K CO _ ; 2SF ' 5.33E-2-654E-O3 222E-S -3 369E-C8 6 OOF. - 396E-C E f39' = 4 9E.3 r?63e 99E- -3 3E-3» 42E-O5-8 345E-C? OOE + -6 36E-O2 j El SO - 3 tvf. C - ;«3E O36K-O2-59SE-O3 29E-u: -3 5"8F-3a 5 OOF. '5 JS K r, F(45= 3 6SE.: 4F. 3 9 COE-2-2 84E-3 2 S26E-5-28E-3 5 OOF»C -6 344F-2 E (4;) - Ol c: - :!! )l S 33SF.-C2-2E-3 343E-C5-3 35E-3 5 OOE.O -2 4E- Ed;)' 3 OF CO - 93E 3 58SE-O2 -: 22E-C3 2 39E-5-3SF.-3 6 OOh -5 335F.2 f(42)= 2 8t -; 23SK. 64E- - 33E-C3 494E-OS -4 324E-C3 6 C9E -2 28F.- r (2)- 2 46F CO - 3F. >C! B34E-2 -; 4S5E-3 2 96E-5-6 5F.-C8 OOF -6 32F-32 E ' 3-2 O:: V - ' E - 23F- -2 23E 33 6E-35-5 383E-C3 ( -2 SE- F(3)= 2 2E ' - 8E Cl E S36E-2-2 2O3E-O3 95E-5 -t O2SE-3 6 OOE ' -6 3E-2 Ell!)' Sr. Cl - j5; - 43SF. 2 S3E-3 ; O59E-C5-5 S6tE- 6 OCE + -3 65E- Elt)-- 6SE '3 -: 39E 5 5E-C2-2 OOOE-33 E-5-5 483E-S 5.OCE ' -6 299E-C2 E (5) - 3Sr )3-338E - 46E-O -4 88S-C3 S 3E-S -2 O5F.-O 3 OOF ' -3 S89E- E(45)' 3SE - J29F. 333E- -S 54SF.-3 S3E-S -3 S39E-" 3. OOE. -9 E-2 E (5) - lf '!". 3 S*. «!l - 3O5E-O -5 SJE-C3 5 28E-5-2 2E- 3 OOf.. 85E- f.(s)' E - J5E 3 E- -5 O29E-C3 6 B3BE-O5-3 233E- 3 OOF.. -9 J3E-2 E(4)= 9 : - - 334? ] 2O9E-O! -S SSF.-3 5 94E-S -2.43E- 3 OOF. -: BB2E- E(4)= 9 OE- - SHE 34E- -4 SJ3F.-3 65E-O5-3 4BF.- e 3 OOF ' -9 83E-2 E(4-3E- 3SSr 3-94F.- -S.9E-3 g 346E-5-2.892E-O 3 OOF -4 OOBE-O F.(48) = 43E-C - 99E 9 95E-2-4 4SE-3 8 2F.-OS -2 BS8E- 3. -9 5E-2 F(49)= 4 9ot - - 3B8F 3 - SE-O -6 9S3F.-3 a 3ZBF-5-3 6O3E-O 3 OOF -4 E- F.(49). 4 98E- -!!E 344E-2-3 Z3E-O3 S 33E-5-2 423E- 3. -9 SF.-2 KlSO) 34E-3-2F - 39K- - SSE-3 3 82E-35-2SE- 3 E -4 6E- E(5O)= 3 34P.-O - 4E 338E-C2-3 OSE-33 4 648E-OS -2 22E- 3 OOF. -9 35E-C2 2 Z4E-C - 22F -. 69K-O -.485E-O3 9 E-S -.93K-O 3 OOF ' -4 2SE- E(S)= 2 24E-O - "SEE S C8E-2-3 SE-C3 4 9SE-S -2.E- 3 OOF. -9 6E-2! ' (S) - K(52)- 5F -J - 42E. -. 4E- -:.5O4E-3 9 349E-S -4 9E- 3. -4 29E- E(SJ)= SOE- - S9E 5 285E-2-2 82E-3 3 89E-S - 8SE- 3 OOF. -9.O9SE-O2 Ft':]) - 5 -. r -2 - :2-335E- -5.H3S-3 S44E-S -3 E-O 3 OOF Cl -. OE- f f 5 3) 8 8SE-O2-52E 4 423E-2-2 2E-O3 3 358E-OS -.62E- 3 E> -9 O9E-2 E S) - J lr - }2 -;! 6r -. 43E-O -6.3O3E-O3 23E-S -3 26SE-O 3 OOh -4 SF.- E(S4)' 3 8E-2-46E Cl 3 694E-C2-2 29E-3 2 99E-S - 4 3 9 F. - " 3 OOF -9 O63E-O2 E'S) *! - *2 U2F -.SE- -5. 9!(':-3 3E-5-3 3E-O 3. DOE -4 4E- E(5S)=.SOE-2-43E 3 2SOE-2 -; 48E-3 2.65E-S - 33OE- 3,r 9 53E-C Table.8 Fttng parameter to dose equvalent of secondary gamma rays n water \

'*) - ; ) \)-- c )..)!) ; ; : ' > -,, ;!. :! ) = («' ".) Table 3.9 Fttng parameter to dose equvalent of neutrons n ordnary concrete Table 3. Fttng parameter to dose equvalent of secondary gamma rays n ordnary concrete :r. {'.rcf-:'. : -rj CO n "A ) = fl Z) = :', 3 = ' { a) "-.. / 5j ) ' 2?)' j V < r. ( K' X. ' L - Y. )" M 5) = M 6> f ) - n Vj- [:' f :.; t ) ^. Y. ' \) -- Y.( jr. r.< CC' y' ) -. 5, K Y< S) ( )--. c, f.!'( K( S) 2) - 3) - K (3) " [!. ( r f 5) a. M )" '.? >- n) =!)" ;:> = ;'2 Sr> YL - \ n Y.* Q? ; ; - j "Oh. 6 Z'K 5DE-' :nk :":! 3K Q'K c;, :. 32 2 rj - -.2 ' - 2 2 2 CZ 'j ; O: j Cflr. u '. -! - Cl - y. - - ; -! <*) = JJ- r ;, ; r"f ; 35f J J f,! ) ' [ Nr *}j r' \')* OTF -! f;f :*)- U' - )[ F' \ 3 > * S - 3 J ; " }( M>- 2.4 [ t ' / J ] Tr : 3)- :. 3 lu 22;t ;2--r> 3. Z22E' -. O 224> -.'3F- -3. 2 j - + ; - J -. 2:* ot -2 3E' - 2 Z43E- 3 243r.»! -4. ll 'J ~S 242r> - 24MC -?. 234E< - 24E 24E -. 232E- -. t'fv tn 233E 2;J. 2 3. : : 23k 2:3r'./ fl' 3 - - 2;E 2O5E 22!F. *G - - j J 22E [ * "; - ZE! 2k! - 22: - 2E - 2ME o H oc - 2 5E O» - 9E JSr CO - j 5E 'tar * - ; 5 9f; *C[ 3 r SC",' ; c.r 2E 3 : J:r 5K 93E 2 K 25E ' 254F 3 23E *[ 353; 3f 4 3 r ' 4 4 3 r f.3r ' ; : V -2. -2-2 -3-3 -3 3. j -4-5 -5-4 -4 b -Z - -., -9-9 -9 - - 5-5 4 -D.; 322E-C3 CE-C2 <C-r.-';' 224E-C3 56E- JUE-O 43SE-C3 C5!E-C3 8SF.- 3 32E-O3 83E-3 33E-O3 9-:E-C3 3JE-2 CE-Z 292E-O2 543E-2 5E- 2 5F-2 6E-O2 99E-2 OZK-32 35E-O2 5bbE-C2 92E-3Z 2E-O2 692E-O2 333E-Z OQK"OZ 6E-O2 45!: 2 843E-2 l'je-2 2E-2 3E-OZ S5E-O2 58E-2 59E-2 259F.-C2 O39E-O2 O35F-O2 34SE-O2 S95E-O2 Z3E-2 «3!E-2 524E-O2 9E-2 242E-2 29E-2 3E -. 24 E -5. -6 -\. - -s -5-6 -5. -5-5. " ; -6. -5. -5. -5 -. -. - -3-9 - - - -.. - - - - - - -j " - -5-3 - -2-3 -3-5 4 Q C F - j =, ml -)b 5! -CJ: '.:-3r.-.-s 34! -"b 3E.KO5 3EE-5 3S3.-O5 35: cs 34E-5 3E9--O5 333:-C5 432H-5 9Er:-5 3bk-.:!. SS.-.-OS! 3 ^ < 'r'. r ^ 8b3'-5 54:; 35 6CK-JS 2':--! c J :- M 2C6E-4 2OK-O4 23F.- 3S9E- bte-34 3BE-4 33E-4 3JE-O4 22K 4 25SK- lt- 4 S3F.-4 8E-3! S33P-3! 49F 4 52OE-O4 5E-4 93S-C5 25SE-O5 S5E C5 35E-b 236F-4 E5E-O4 3;E-C 85"E-J E53E 4 "2F. " j. 3 r «j 9. 5 j':. - C ', -b 32E ' 53"-5 -D 3 )5 -, 2CE-3 Ef.l.-3', n3hc3 r s 83!=-C3 " :-33r-8 } 533E-J 3 368E-3. OO5E-O OCE- -5.. 82: 9 -' ] ; 2 2 2 2 2 3 2 5 E - c > 224E-C8 6SE-3 5--C cbs:-:-e F - 3 S,F 43;: C '.5:-.-'J ZE 9 "}.-: 825E- 95CE- 3!-: C 45E-" 5 t- 22-X 38' 95E- 94E- 234E- 46E- 55E-O 5ZSE-3 32F.- 33--C 2E-3 3K- 63E- 3-3 655E- - -4 ~ -. -b b r, -j -5. _ J -', -f> _ c. % -} - - - 2. 333E-3 3 SE- 3E-C5 28E-E 2 85t-E 3-. >:; : " T - - J - - - - - - -! _ j - - -j - - - - b V.'tl-W 5U;-:-M 54K- E-! 55 L '- ' ' 3EE 22K- 35:E t 33Er.- 85r. '-'! - M ; -!: 2'.. 3!l- : " -: :-. - 93 Cr'.E!'j 2 «K : 2.-:-! C E- 3E- Z5ZEK 43!:- : 33"-K 3 3 f -:: 935E : 455E ' 3CK ~ :5F.! H - 5E- S2E- 5E- ne-3 Qgtf 42F-C5 224E 3 3 39-:E :J 3 ' j fc oc.;.'.2k 2 5 h.' ". ff:,- 5!:':'. -'. '.. cj : : 4:- o:s s;4j>].coe 5 3?, V. -! 53k-:;.O".;. 2K OJ!:. : K. OOE -.;;;: oos: -; -; C-S ' : : f j C ^ ' ' COr l '.2 ~ 2 T 3F,;; - Q^!. T r, ;J. OOF 32 S OCr 3 rry. " 5 : 6 32 :z - 2 ' r.? - C2 - G2 - cz - )Z - 2 - : z "2-2 - :z 2-2 - 2-32 - t'" 3 GCf?. 3 'T? 63r 2 3. C l: '?' 2 O r * J 2 3 f C J 3 < C2. ' ( :,? ] \ j! - ZOflK-.2 2' 2 " :'' 2 ' J2!.'- r 2 2 5' : 2 *. c. 9: -: 2 23!-.-..: 354--B2 3 3 ".: ' ".2 4blr-C; f.3?r." 2 53E32. 2EG2 : 3 K - o _ 236E 32 433E -; Vlbk :;2 : 3 v -" - '3 3 K.2 :OK c: '. ;E: :. : J. :: M4F '.' " :s: :.. 3OK :o T ::.* j." * 3 8':'. - * C;?: C! 4 5 F 2 " C-":'»E-:) j3ak '.: 392?. C : 32 * 33EF. :.'.'-,'- :,! - V? ; 3o;- \l 4 r : 2.T.J. J b r : - n-tr 53H.-C- ". OC: "JQ J. 3 5 38k-2 3ZF. r J 3F 2 2 4E 3E-C 3E- '8ZE! 59E- ''f- JE-C: ''' - r PE t F-" H3E- ME- SJ. L.- ) J.3F r f -" ' : C ;' :ey S' )' 4 COE l C H 2) - 3 SE 2."( 3;- 3 ;o: 32 \ 4-25r. ; : b) - M : ' ) - :;, ;: -:M 3) : : '. f' ( : ) : ) ;). t t, ".) - ~ -! '.;-. v.: : s ( r>::! ; [ f, j j "Jr.*. J Sf " r : Mr-:: '.: F * r *.?? '.', '. ut'-:: 98E-:: 3r; : MK-:: 3::-. 22E 24E :E 92E '.4-r!SE- 53E- C3SE 2S3F- S;2k- J5K-.53F-C,: SE- 3 6.-C 3.23E- 33JK-O4 3 22E-J l.s34r.-tl 3 23CE-3?lVr>;. «'F C4 3. 2S2F.-C 3 28-- - t'.2r. 3 3SE-! lj;t-c 3. 36E-O "- '-.-" 3 4E?E-) 2 ::::-: 3 EOE- 2 5C-.- : "E-c : 4J! 4 25K-C: :. :. : ',; 3 2 2.r' -,\ 4 55E- 2 =.'- S EBE-3 2 ;.--'<* ' 23Sl:-5 : --.t ;. b;:- -2 2 ; r..4 3 35CE-3 ; '-:r-ll 3 E-C." - 34 3 3S.-E- -: :-.'. :: s ot-c - "-:r Cl 3 3F.8E-O 2.- :' ' 4 4 44.-! -2!.r. 3 4 "bk- 2!: - r. 4 b;2"- 4!'- 33 4 y-:- -.' CHE-C. S:- 3.-.'.'!' ' 9b2F-O' J S:CK 3 3 M3V. '4 3 35E C" S3E-O2 l :;. " 3 85E-S!f- 2! 4"4: 24! 53:E-O5! ;? 2 - :".-:\! S2SF-C5 ;-E 32-4::r-:j 5 632E-5-53E-; - 395E- -.SSE-O.S52E- - 94E- - JE- -.S3E- -.936E- - S4E- - 9J3E-.OOE.2-2..SE'2-2.. COr>2-2..CCk»C2-2. OOF.G- -2.C3E*2-2. COE'2-2 EtC2-2. OOE.3; -2. k.2-2. - 9SE- OEH2 -.5S4E-S ocf: -2.O3E-O -2.O3E--.O -2 25E- 2 C3E-. -2. 2E coy 2 53E- -2 S4E- -2.244E- -2 325t!5-2.45E- ' E-32-5 ;:'r.-c lb!e f,e - O4F.-9 9. = EO2 -! 323r OJ 2J4K-6-9.8SE-3 53E-2 -!5:E- 2.'"2E-6-3 8ZE-C9 4 33E-2-2. : b "2EE-5-9.22F.-39 3 53J--32 - Zllr.-! >F.-CS -8 9E-9 523k-.E2-2. S3 3!".EO2-3. "E- OE»O2-3.CF'-.: -3-3.C>2-4 OOE.2 4 2O2E-: 2SE-: 2SSE-! 2 3 H" - 233F-: 34JK-! 36E-. :>] Z-'SE- 334E- E2flK-' s? f ; - 2 ;33k :o " ::»2 -s SE 2. 2SE- :f5.c2 -b El-E 2 93E 3. C3r>2-5?S;K 3 C-4E-C.CJE'C: -b ;?CE- 3 23E-3 2 332t-:C -2 32EK-C 2 SE- 83E-! - 9C4C-C- ; O5E-O -2. 3l:-!5-2 63S-:c 2 '.SOE- -2 S3SK-3-2 ;24E-:C -? 32E 2 4 3SE- ;l - 58E-C -4 S4SE-9-4 63E-33-4. 496t C9 - O45C-3J -4. 3SF.-3 : K - 2. dr..2 OC-G2 E-O2 3r:<2 JOE'GZ b FO2 b co:-:»c2 b OOE.32 3 E<2 3.OOE-O2 3 OlK'2 2 E3E-2 3 OOE'O: J. C K 2 EOE'2 3 OCE'O2 2. 6E»2 2. 8CE'O2 5 4BH-3 s 42SE c S!2:-t 5 55E-'! E--2 E64. :> b EE-C '. 6" 5 K - C : SK:-': ', : : 3E C J 6!3. 3 5 8.E C r S3E b!3e.v 5 2V "2 S :OF 32 -B.2CSF 2-5 3E-C2 '. 2EE-: 5. 25E 2 -S 3E-2.24 -: '2 -s 364k :: 5 38F-:

r ; (. Table 3. Fttng parameter to dose equvalent of neutrons n ron Table 3.2 Fttng parameter to dose equvalent of secondary gamma rays n ron -:( ) = 4. 3F 32 FA 2)- 5:' 2 E( 3' 3 o; E( 4) = 2E- 32 k( S' 3 JF< 3 E( 5) = 5K- 2 r.( = 2 S3F.< 32 F.< '.) - 2 2SE' 2 2 '2 K > "- 5S-.' 2 r:o>--. 6C-E' 2 E(2!«4GE- 2 3)= 2JE- 2 :'! - -- \ CE 2 E(S)= COE-'o o : K M '.' 3. M -- ::(U) "(3)' -:(2)-- r. 2 )' r. (2 2 = -<2=" H ( 2 5 J ' F23' :'M)'!-:;s' :(;5) = :2- E(]O-/?:) = '34' E(35)' :-'(36) = ;.(j2- r.c'3)-- H"'>f(3")= :(39)- r. 3 - E ' ) '.(42) = EMM Hd- K45> = E(46l= K ( > - :-: ( H - E(4l- ('. = E (5)'!:(52' E(S3)'. (!. ' K'? S > = a! N-rJ'.r t P.'Jl,nl. 6, 'OF o: 5 3 * E o: : :E.*: F 3 OOE 3 2 SF. 3 53E J 2 25F COr 'Sh 3 45F 3 35E o: 22E COE ', :3F OT, 'OK or S 9E -33 9E TO 3 5 S F a. 6?. ' : 32E -3 3 «: *?: 2 ;.: "33 ;E 3 3 O"J: 3. 3E-3 4 3 2? c?: Yl 3 E! - 3?E -3 3t-: 2E Cl S3E-C 55E-2 3E - 2 5OE-O2 -!. -. - -. -. -. -. -. -. -... -. -. - -. -. -. j -. - - -. - -. -; -. - -. 24E- 2!5E' '3! 244E' 242E-' 239E- 3 238E ME- - 238E-"3 :34E '3: 233E o; 243E 2 HE 253E 25 E '3 25E 3 Z5E 26 5F. 35E»','. 3 3OE +C 383E. HOE 5O9E -;. S'.K - - - - - - - - - -. - - - - - - o: r. :25-> 3;;:' c; 34E- 3K. -UE. 3 45E. ) USE* 5'.E* 5SE* 53'.. 52E- 55E> 3 68E> 3] E.3 3E. 5E. E- 3 9E< S2K.!}S< o: SE. -C; 3E' 33E' 33F' 3 233E' 3! 2SE' 3 2 K ^ (C 2 F.' Cl 223F. ' 2F. 2E' -3 229E' v E-juvl :-n 3.64E : 3 66.-32 3.533E-2 3.HE-2 3.5SE-C2 3. 446E-2 3.3E-2 3.28SE-O2 3. 33E-O2 3.G5E-O2 2. 956E-2 2.82E-2 2.634E-2 2 58E-CJ 2. 45F.-2 2.39E-O2 2. 23E-2. 956E-2.349E-O2. 9K-2 5E-O2.434E-O2.ZJ5E-Z! 33K-32.S54E-O3.2EE-3 5 355E-3 3.EE-33 2. 34E-J 55E-O3 4F.-C3.O35E-4 -.244E-3 -.34E-C3 -.83E-C3.93OE-O3-2 68E-3-2. 3S9E-3 -.3E-3 -.594E 3 555E-C3-52E-C3-59E-C3 4 C2E-3-4 9F-3-4 23E-3 5. 3SE-3.O35E-2. 63 :;-3 2 943E-O3 -.434E-2. 323E-2-2.45OE-O3 6HE-2-3.4SF.-3-5. -5 n 3nj SSK--C4 CECE-3 5E-C -5 C2E-4-5. S59K -5. 94E-O4 -S. J53E-4-5. 343E-C -5. 32E-4-5.J8F- -S. 852F.-4-5. 5HE-4-5 4E-O4-5. 33S-O4-5. 58EE- 5. E2E-O4-5. S6E-4-5.43E-4-5 -5. -5 -S -. 4. -4. -4 -.' - -3-3 -3. -3. -3-3. -3-3. 325E-4 235J-C4 2E-3 4E-34 83E-3 53E- SC3S-C4 433E-4 254E-4 3E- 9EE-) 869S-4 8E-34 22E-C4 53E- S8E- 528E-4 54E-34-3.433E-4-3 tjjfc'-c) -3. S3OE-4-3 S44E-4-3. 55SE-4-3 S53K-4-3. S32E- - O6E-O -3 343E-C4-3 34F.-C4-4. 2 HE -4-4.S99E-4-3.93E-4-3.4SE-34-2 8F.-34 -..84E-4 36E-4 S33E-4 S58E-3 l -.! 2 CO6E-36-2 3S8E-9 2.O3SE-36-2. 35E-33 2 33E-35 36E-O9. S3j;-6-2 353E-9. -2.3SE-3 3J3E-5 335E-5 933C-S 989E-O6 J8 5F.-6 ;. 93E-6. j. j. 9E-6. 36E-5. 3SE-5. 9'K 35. 954E-6 95-5E-C5 326E-O5. 9K.-5. BSE-5 SE-S6. BE-E. -8E-36. E-C5 535E-5. E4F-5. SJ3E-6. 523E-36 455E-G5 4SE-C5 35E-O5. 35SE-5.... 32E-6 25'E-OE 243S-6 24E-6 24E-5 23F.-5 22JE-O5 248E-6 2S.E-.35 25E-36.. -2. -2. -2 2. -2. -2. -2. -2. -2. -2-2 -2-2. -2. -2-2. -2. -2. -2. -2. -. -] -. -.. -. -. - -. -. - -. - - 33E-33 352F.-9 353E-C9 3ME-O9 35E--9 34E-3 3S2E- 3 35SE-33 358E-3 25E-C9 39E-C9 329E-9 3O5E-39 233E-39 24E-9 :E-C3 E-C9 23S-C9 E- 3 E 3 3 - [. 93E-3 86 3E-C9 8E-C9 33E- 9 534E-9 55E-33 65E-39 S45E-9 5SS-3 59E-9 S3E-9 43E-99 433E-39 522E-9 53E-33 52E-3 535E-33 53SE-9 83F.-O9 MOE-9 359E-33 92E-9 S3E-9 8EE-39 53F-9 23SE-O S3E- 253E-C6 252E-C5 -. USE-OS -.S3E-5 -..E-6 - J.4335-5 -.. S3E-E -2 452E-C5 -. 2.C.E-C5 -. 3SE-3-9. 5 64E-O -5. 3. 649E- -.3ZE-9. 53SE-35.35SE-33 8. 9E-6-3.9E-9 bj 'd 3. OOE* 2-4 293E-! 3. OOE. 2-4. 293E-2 3 OOE. 2-4. 293E-O2 3. OOE* 32 3. 3 3. 3. OOF.* COE* OOt* o: 2 2 2 33E* 3.OOE* 2 3. CUE* C2 3. OE> 2 3. OOF* 2 3 COE' 2 3 cot:* 2 3 OOE. 32 3. OOE. 2 3 OOE.2-4. -. -.. -4. -4. -4. 4. -,j 232E-C2 292E 2 29E-2 2S9E-O2 2SE-2 234E-C2 28OE-O2 25E-O2 E( 3) = F( 4)'! :( 5) = E( 6) = K( D = E( 8) = E! 9) = : ( c -- K!ll)=.u: = :(3)-- E(.l = K (M = 3CE»2 E(6)- 9 OCK'O E( )-- 3 OOE*C E{8)- F(9)= E-2') = r. ( 2 ' KC:> = ECS y.) F:)-- KCE)- E2)-!'(2) = E'S3>' E(33)= E(3H' K(32)> E (3 3 = E(34= K (3 S = E(3E)= E(3)= 3. 3. 3. 2 2. 5E.2 SOE'2 2SE.2 5OE-O2 2. 2 5E*G2 2 COE-2 ; 5E*2 ; 6Or."32 4F.-2.! - 259E-O2-4. <6SE-92-4 SE-OZ -4 259E-2-4. 2S8E-2-4 ME 2 3. OOK- 2-4. 25E-O2 3. OOE. 2-4. 255E-O2 3 59E- 2 -J 256E- 3 3E< 32-4 55E-O: 3 OCE' 2-3 OGE' - ''SSF-C 3 OOE' '32-4 2S5E-2 3 OOE' 2-4. 2J4F 32 3. OOF' 2-4. 2S4K-2 3 OOE' 254E-C2 3 OCE' ^2 4. 2S4E-2 3. OCE' '32-4 254E-2 3 OOE. '2 -' :54E-52 3 COE' >2-4 2SE 2 3 OOE' >2-4 254E-Z 3 OCE- 2-25E-2 3 OCE' 32 2 5-4E C2 3 OCE' 2-4 254E-2. CE*2-4. 2S4E-H2 3 OOEtOZ -4. 2S4E-32 3. COE >2-254E-2 3 OOE- 2-4 254E-32 3 OOE -4 2.4b-2 3. OOE-'2-4 9E-32 3. ODE-'2 4 9E-2 3 OOF. 32-4 8E-2 3 CCS 2 - E-2 3 COE >C2-4 2F.-32 3 E*2-4.6E-2 3. 3E 2-4 [HE- 3 OOF. 2-4.3E-2 3. OOE 32-4. 6E-C2 3 COE '32-4. 6E-2 3.CJE 2-4. S9E-2 3.OOE.2-4. 6E-2 3 OOF. '.2 -.SE-2 3 3E 2-4.6E-2?. 6E 2 -. 63E- /So-co: Hlary C e.a Bay/ ' P- Bound Group F n f rry (M'-V) E( )' 4. b'«2 E( 2)' 3 5 6 S 5 2 3 2 2 2 2. 3 5 E.2 5E*2 2E.2 E-D2 OOS'u SOE.O! 3CE. 5E.C o:;-:*o; 5C>c: OOE.C; SCE'C: OOE'O 5E. 3F.C 25E<: 3K. 5E. 9F.J 35E-3 2 K * OOE'O 9F* OE*O3 '. -. 6E.! -.634E-3 -l.6jse.3 - E3E. - 63SE-3 -:.3K*3-4E*O -.OEE'C -: 'E«3 -."lse'cl - T 2K -!.2t' -.3E«5 -: 3K-O -:.33F* - 44E-3 -.<3F* - 52F-3 -: "55F>l - h"3 -. 3E'C - flr.*cl -!5:-'Cl -.S3H-C. 5QF.» - 36r.*; - 98K*C; -: 83K*3; -: T33E»C! - 3E'C -.2E.C. - 53K'O: - 65F.-3 -; 6T2E-H -. 6 9 F- 3 -.:3F.- - 33E- j?e'c! -!CF.* -. J2SS-! - :-:5F' - S3t*O - 3E* -l.939e*; - 95F..C! - 35OE*C -2 35E* -2 O3K. -2 SF.' -2 GSE' -2 52E- -2.OE.O -.992K'3 -'..9E- -.83K*3 2.345E-C: 2.398E-2 2. 49E-2 2 36K-2 2 23SE-2 2.232E-32 2- l4e-32 2 C29E-C2 529E-32 '4SE-2.5E-C2 644E-C2 534K-C2 444E-C2 36E-C2. 2SK-C2 54KC2. 355E-C2 9. 52SE-C3 *. 355E-C3 S.O2E-C: =j3e-:3 2E C3 339E-C3 4 ; 3E-3 4.2Z5E-C3 2 ZE-33 4 =5 E 3 - S35E-33-3 55E-32-5 3*E-32-4 52E-32-5 333F-32-5 EK-32-5!S4E-52-4 26E 32-3 M4E-32 -: 55E-C2-56E-C2 - E4E-:3 3 J5E-C3 ', 4K-2 "55E-2 2.45ZE-O2 3. 232F.-32 3 6ME-S2 5. 4BE-2 6 69OF.-O2.92E-2.84E-2.34E-O2 6.33E-2 5 EOOE-2 4. 99E-32 S. S2SF.-2 E(3S)= 5.49E-3 E(39)= 4 4Sc*C3 F.'O- 3 5 9 E * Z 3 E! :)' 3 OE'C) F'2)= : 2 46F.. E(3)= 2 S2F.* E(.tl) = : 55E*GJ E(4S)= : 3SF* F.((S)' '. UE'OO E(J)= = 9.E- F: < 4 8 > =.43E- K (4 9 > ' 4 98E- E(5)' = 3.34F.- E(5) = 2.24E-O E<S2)= =.5E- E(53)' 8.6SF.-O2 E54) ' 3 8E-2 E(SSl 5E-2 - [t l: -3. -3-3 -3-3 -3-3. -3. -3-3 -2. -2-2. -2-2. -. -2 2-2 -2-2 - - -: -:! 2 3 3 4 2 3 2-332E-O6-3E-5 3.394E-S -6-5 66SE-5-2 24E-C 25EE-3 -. 44"E-34-2. S5E-34-2 33F-4-3 26E-34 E. 22CF-3 3. 34E- E 29E- 9E-C - 33F.-4-5 -6 - -3 _a -9-8 -8 - -2 4SE-O4 462E-4 4E-C4 43E-C4 32K-O4 33SE-4 26 E-4 E-C4 9E-C 32r-4 556E-4 3E3E-4 JCE-C4 C4E-4 54E-O4 5 6 4 f - 3 4 4S9E-34 3'E-4 3C5E-4 226E-4 l-ft-3 O8K-4 352E-4 9S2E-34 353E-34 6E-4 5J9E 34 333E os ;:-4 89E-4 55E-4? CF-C4 8SE- C5K-4 E-lE-4 C22E-O4 245E-C4 442E-C4.3SE-4 226E-4 364E-4 35E-4 3SE-O4.33E-4 8E 4 Z6F.-O4.38E-4 5F.-O3 h.jn 8. 359E- 3 33E-C 9. 63E- S.2E- 3. 33E- 8.536E- 8 36SE- 3 CE- 68E-.436E-C.48E-O S.3E-C 6.4JSE- 6. 5OE-C 5.92E-O 5 658E-C 5. 32E- 4.85E-T 4 6CE-J 4.23E-C 3 95E-C 2 38E- 2 S3E- 3. 34E-O 2.354E-C 2 4E- 58E-O 9.8E-3! -2 S9SE-3! -. 26E-6.2SOF.-6 -.S82E-6-34T:.-e -.954E-36-88E-6 - SB-K-OS 3E-6 452E-6.82E-6 2. 242E-6 2 S3OE-6 3 C5E-6 3. 84E-6 3.6E-6 2.9O4E-6 2.39E-6 8.4SE-6 aej 2S4E- SOE-O 53E-C 342E- O43E-O 842E- -S.4SE- -9. -9. -9. -9. -9. -8. -8.4E-C -. S94E- -. 2S4E-C -6.865E- -5. -5. h. -. -4-4. -3. -3. -3. -2. -2-2. -;. - -5 3 ;. 2 2 2 2 - - -5 - - - -2 394E- 929E- 538E-C 22E-O 9E- 234E- 82E- 449F.-C CS2E- 596E-C 4E-C SCK- 3CE- 26SK- 6ZF- 38E- 342E- 929E- 3E-9 8S8E-O9 2E-9 59E-39 36F.-9 555E-C9 2.23SE-9 9E-9. SJ4E-3 9E-O9 99?-3. 25E-3.OSE-O 693E- S25E-O E-O3 S65E-9 992E-9 J8E-3-2.9E5E-9-3.E6E-9-3 8ZE-9-3.3E-9-3. 55SE-O9-3. 34F.-9-22E-O8 3. OOE. 3 OOE- 2 3.OOE* 2 3. co'-o; 3. COE* 2 3 OOE* 2 bj 3. OOF.* 2-4. 4E-32 3 OOE* 2-4. 3F.--C3 3. OOE* 2-4. 3E-2 3.E* 2-4. SE-2 3.OOE* 2 -.;. S3E-O2 3.'.. 32-4 9E-C2 3. OOE* 2-93E-C2 3.OOEtOZ -4. 2E- 3. OOF' 32-4. 25K-O: 2-4. -4 -t. -.'. -4. - 3OO-:*O2-4. 3. OOE. 2-4. 3.OOF' 2 223F.-C2 23F-C2 Z3l:-C2 Z4s-c: 2435-3: 245E-O2 24E-2 249E-2 249E-' 3 E.2-4 25OE-2 3 COE' 2-4 25E-Z 3.COE' 2-4. 2SOH-O2 3 OOE. 2-4. 25E-: 3. OOE' '32-4 :';E-2 3. COK' >2-4 :5OK- 3 COF' 2 -. 25-:-2 3. COr' '32 25OE-O2 3 COE-.2-4 2SK-O2 3 oc;-:- 2-2SOE-O2 3 OOE 2-4 2SCE; 3 COF- 2-4 2SE-2 3 OOE 2-4 ZSOE-OZ 3 OCE 2-4 25E-O2 3. OOF.2-4 2SOE-O2 3. OCE.2-4 253F-2 3 OOE.2-4. 2 5K C2 3 OOE.2 -'. 253E-2 3 OOE <C2-4. 2SOE-2 3 OOE 2-4 253E-2 3 3E.2 -' 2SOF.-C2 3 OOE 2-4 :S3E- r ;2 3 OOE 2 -.:SK-O: 3 3E *2-4 4E-C2 3 OCE *2-4 43E-Z 3 33E 2 4 42E-32 3 OOE '2-4.49E-2 3 OOE 2-4 46E-2 3 OOE 2-4 4OK-O2 3 OOE 2-4 42E-C2 3. OOE 2-4. S-2E-2 3. OOE 2-4. 59E-2 3. OOE >2-4. 59E-O2 3. OOE 2-4. 6E-2 3. OOE 2-4 5OE-O2 3.OOE :*2-4 6F.-! 2.6OF :*2-68E

Table 3.3 Reproducton rato of dose equvalent of neutrons and secondary gamma rays n water Table 3.U Reproducton rato of dose equvalent of neutrons and secondary gamma rays n ordnary concrete Gron So. 5 Group So. 5 29 R l-n (> e\ ] (cm) 2u 3 35 4 45 5 6 8 9 -. S. 2. ( 2 4 6 8 2 25, 35 4 45 3 55 6 3 3. 8. 85. 3. 95.. OO. 2. ).. -. (42 5 95 95 88 9 5 45 4 29 8 3 99 984 982 983 984 986 98 989 999 Ol 2 8.o; 3..998.99.992.993.996.3.5. 999 3 5. 2nd. 5 2, 93 266 9 839 G. 2 682 65 62 GG 696.. 88 892 98 49 29 34 323 3 28.4 t 32.964.894.H3.83.83. H65.9. 969.46.4.. 29. 9 9G. - 9.. 695. 35!. 9. OOP. 83. 4 62. 2 n 22 5 9 2 996 993 98. 98 982 985 9R9 994 99 4 2 2 8 6 8 4. 99 994 99.989.988.992. 999...4.98 2nd. 5. 3, 2 G4. 29» a. 992. 845. 63 6. 63 6G4 G5 66 68 9 49 o 89 882 98 5 58 236,,9.8 325 252 42 39 95 89. 8 35 89 82.862.886.986.69.4.39.2. -.85 22. T ll.9 GO. 2 8 6.2.S. 63.95..9..968.932.9.889.8..882.889.8 94.98.95..998.24.44.9.9. 8.3.5.46.2.5. 9 G. 9 3 9. 9 3 4. 8 9. 8 9. 9 9. 9 6 8. 6 3. 2 5. 5 C. M 9 9.6 2nd. G.99 2.49.459.6.86 2.4 9.6H2.64 2 O.GO.588. 5H.5^8. 6 9.65. 6 9 8. 8 5. 9 5 5.2.26..4.56.569.43.262.4. 9 8. 8 9. 8. 9. 8 5. 9 9. 8 2. 8 5 G. 9 6. 9 " 9. 8. M.3 6.93.4 :nn nv) K(r«). HO 9 2 3 4 5 6 8 9 2 22 24 26 2^ 3 35 4 45 5 55 r.oo! 6 5 L 5.. 5. 2. 25. 3. 35.. 45. 5. CO ( ()! " n 3 5. 2nd. 4. 856. 88. 68. HG. 4.. 682. B5). G52. G62. GG8. 2. 8. 882. 963 4 ) 29 256 2 284 28 28 265 24. 83 H 3 96 HB 69 23 5 856,. 24 352 92. ~ 9.. 62. 22. 5. 3. 98. 328. 95. 9. 9. 94. 329. 948. 962. 9M ). 993. 5. 28. 39. 49 55. 59. 62 ) n 62 6 ).3 28 3 99 98 946 928 93, MO." ) 5 6 _!. 2nd. 5.3.S9.. 2 G.99.G2.665.635.G2G.32 O.«5O.5.8.8 59.94.32.2.8.238.282.3.S2.33.32..35.26.2.9.35.954.R8.3.., 9.S42..5.265..9..25.-.8.3 92..94.933.94.935.934.9 o.93.94.96"-.3s: ".999...26..6.44.42.4.5.32.52.)5.43.32.8. 3.99.948.93.936 (.96.3.4.2.44 22.5-22.425. 2.9 C.936 (. 89 f.«c2 c.84 t.84 (.83.848 r.86 (.9 (.948.985.2.5..98. 35.5. 3.4.44.43.29..65.9.96.83 3.835.88.869..9.22.3 9.6 2nd. 6.39 2.286.26.942.6.688.64.69.6. O.Gl.65.2 (.83.86.968.6.5.2.,.35.34.392.42.445.446.4.2.363.25.33..893.G9.596.6.5,.24.44.63.348

Taale 3.5 Group Vn. Kn(MeV) R (cm) 5.. 5. 2. 25. 3. 35. 4. 45. 5. 55. GO.O C5.. 5. 8. 85. 3. 95.. ). 2. 3. 4. 5. 6.. 8. 9. 2. 22. 24. 2C. 28. 3. 35. 4. 45. Reproducton rato of dose equvalent of neutrons and secondary gamma rays n ron 4.~ 35. n.855.225.95.855.85.84.8.82.845.85.94.936.96.998.2.53..98.5.8.36.4.33.6.92.63.3.999.969.938.894.8.82.89.948.48.263.8 2nd. r.483.985.82.8.9.92.95.962.9g.98.995.2..2.6.2.24.2.29.22.2g.28.28.2.23.8..3.995.984.9.96.95!).966.98.4.9.95 5. ~ 9. n.83.24.958.868.829.8.822.83.852.88.95.934. 9G3.992.8.44.6.8.4..28. 35.32.8.9..4.8.9.944.89.8.868.89.94.4.22.868 2nd. r.358.923.846.88.93.9.9.22.3.33.3.25.9.3.8.4..998.99.98.989.993.99..4..9.9.8.3.99.99.98.985.988..3.985 29 22.5-9.H n.5.8.92.93.83.664.86.83.888.96.926.94.968.989.9.28.45.6.5.6.94.3.2.94.8.5.33.8.983.956.98.89.896.96.956.3.99.898 2nd. r.93.8.82.94 2.3..2. 98.65.2.6.3.4.98.958.943.933.92.924.94.92.933.949.96.985.3.8.3.4 2.46.53.48.34.5.994.946.949.4 Table 3.6 Group 2 3 4 5 G 8 9 2 3 4 5 6 8 9 2 2 22 23 24 25 26 2 28 29 3 3 32 Energy Attenuaton lengths ( A u ) vs. source neutron energes En (.lev) 4-35 35-35 35-325 325-3 3-25 25-25 25-225 225-2 2-8 8-6 6-4 4-2 2 - - - 9 9-8 8 - - G5 65-6 6 55 55-5 5-45 45-4 4-35 35-3 3-2.5 2.5-25. 25. -22.5 22.5-2. 2. - 9.6 9.6 -.5.5-4.9 Water 88 8 86 84 83 8 9 5 2 69 64 59 56 53 49 45 4 38 35 33 3 28 26 2. 9 8 6 4 2 2 2 Attenuaton Lengths (;. <>' Concrete 3 2 99 98 96 95 93 89 86 82 4 66 6 5G 53 5 4 44 42 39 36 32 3 3 29 2 25 25 unlt(kg/b») ron 82 82 82 82 82 82 82 82 82 82 82 B2 82 82 82 82 82 82 82 82 82 82 82 R2 82 82 82 82 82 82 82 82 n \

Table 3. nfnte medum effect C H (E n,r) of neutrons and secondary gamma rays for water (/2) Table 3. nfnte medum effect C H (E n,r) of neutrons and secondary gamma rays for water (2/2) ncu t; r on neutron JleV en 4. 2.. 5. 2.. MeV cm 5. 2.... 5..99.98.9.96.93.9 5..88.8.4.26.2 5..9.95.94.92.8.83 5..9.64.4.6.6 3..95.94.92.9.85.8 3.,6.5.2.G.G 5..94.92.9.89.83.9 SO..5.56.2.2.24..92.9.9.88.8.8..4.5C.2.2.2 2..9.9.89.86.8.8 2..4.55.2.29.29 4..89.89.88.85.8 4..4.55.2 \ Secondary gamma r- ay eamma ray McV c» 4. 2.. 5. 2.. MeV CM 5. 2... o.ot 5..5.5.6.6.9.38 5..4 O.OG.9.9.25 5..22.23.24.26.3.48 5..4.58.69.8.84 3..35.3.4.43.52.68 3..2.85.8.8.8 5..4.43.4.52.65.8 5..82.84.84.84.84..4.44.49.58.8.85..8.8.8.8.8 2..38.4.4.6.86.8 2..8.8.8.8.8 4..3.39.45.6.9 4..8.8.8

Table 3.8 nfnte medum effect C H (E n,r) of neutrons and secondary gamma rays for omnary concrete (/2) Table 3.8 nfnte medum effect C H (E n,r) of neutrons and secondary gamma rays for ordnary concrete (2/2) nrul ro neutron MoV cm 4(. 2.. 5. 2.. HeV ca 5. 2.... 5..93.9.89.S.83.8 5... O.fG.63.38 5..H..4.2.68.G6 5..6.5.56.3.2f> 3..4..69.6.62.G 3..5.5.38.25.24 5...69.6.64.59.5 5..54.4.26.24.2-..69.6.66.63.5.55..5.2.24.24.24 2..6.66.64.62.56.53 23..4.24.24.2.26 4..65.65.64.6.55.53 4..46.24.2.29.2 Soc- o ndary tx \ m n t\ r xy S o o o n < n r y f»n n a ray P cm 4. 2. too. 5. 2.. McV CM 5. 2.... 5..3.3. 5.5.2.3 5..3.5...4 5..5.5.6..23.23 5..23.9. 2.2.3 3..22.24.26.29.35.32 3..32.3.45.53.6 5..3.32.36.4.5.5 5..5.63..5.8..33.36.4.5.68. f..6.88.9.9.9 2..32.35.4.54.86.92 2..93.94.94.94.94 4..32.35.4.56.93.94 4..94.94.94.94.94

Table 3.9 nfnte medum effect C,, (E n,r) of neutrons and secondary gamma rays for ron (/2) Table 3.9 nfnte medum effect C H (E n,r) of neutrons and secondary gamma rays for ron (2/2) ou t run r o n. r o n M- cm 4. 2.. 5. 2.. MoV ('3 5. 2.... 5..54.55.5.58.58. B 5..5.53.59.48.23 5..34.35. 3.3.38.38 5..38.38.39.33.6 3..3.3.3. :t2.32. 32 3..3.3.32.2. 5..29.2).3.3.29.29 r.o..2'j.29.29.23.9. j 2..28.26.28.25.28.24.2.23.2.23. 2. 2. U. 2. r -.24.2.23.2G. 23.22.22.2.2. o.2;.23.22.22.22.22 4..2..22. 22.22.2 d/ ry r~ txy ra 4. 2.. 5. 2...36.3.39.4 ).39. 5...3.34.3G O.Df.42 (.59 3..25.25.25.25.24. 3 5.. 2.. o.u.5. f. 3.5. 5. 3.G.3.3. f -J..3.3. R.6 'Nl.. G. <;. 6 O.lf, o. ; o. B

JAKK [)nte/c'ode 9 3-5 r l r Water " 252 Cf - s X " -9-2nd. y ray -l -2 HLO86R ^>.S D >-] 3 2 Thckness(cm) Fg.2. Comparson of dose equvalent n water calculated wth HL86R and JSD for 252 Cf neutron source. 3-5 ' ' S Ur fl - \ Orclnjry concrete f X ^ c " 8 2nd. Y ray X \ V neutron»cf - < " "" h ^,, 2 Fg.2.2 HLO86R JSD \ Thckness(cm) Vs," Comparson of dose equvalent n ordnary concrete calculated wth HL86R and JSD for 252 Cf neutron source. 3-55-

.AKH Da 9 O(K t) " 5 ' S nr 6 - o- x JO" 8 - neutron ron 252 C f l(t 9 h 2nd. y ray - E "n r- K l"" 2 h HLK6R.SD -3 Fg.2.3 ) 2 Thckncss(cm) Comparson of dose equvalent n ron calculated wth HLO86R and JSD for 2 "C'f neutron source. 3 n- 6 Water _ "" X s " 2 o~ ls - "X ^\ "~^~ c.y _ < 5 X n- 8 r 2 _ neutron \ ^ \ \\c;2<; G2: \. - K)" 2-4 " 2 : \ n" 3 Fg.3.... \ 5 Thckness(cm) t ( Neutron dose equvalent n water for monoenergetc neutron sources (G=»OO.-35., G5=3.-25., G9=2.-8., G5=.-9., G22=5.-U5., G29=22.5-9.6MeV). -56-

.AKK! Date/Code 94 3 S o- 9 - «* o- 2 - \ ' ; ^ _ ^ Water - ^r-^g! \ _ G9 x JO" 5 /3 : 2nd. y ray ~ \ G5 U ( J29 N>^ G22 "X ; Fg.3.2 L 5 Thckness(cm) Secondary gamma-ray dose equvalent n water for monoenergetc neutron sources (G=4.-35., G5=3.-25., G9=2.-8., G5=. -9., G22=5.-45., G29=22.5-9.6MeV). Z nr (; h - ]2 r- = ^ ^ = - ^X. _ nculron x ' " \ ^ s \ / G Ordnary concrete ^ G9 _ G 5 - ^v^- G22 ~ \ s cr 24 k ()- 2 - h -3 Fg.3.3 ". X,. 2 4 6 8 Thckness(cm) Neutron dose equvalent n ordnary concrete for raonoenergetc neutron sources (G =4.-35., (35=3.-25., G9=2.-8., G5=. -9., G22=5.-45., G29=22.5-9.6MeV). -5-

.JAKK DHlc/Oxe 94 3 Fg.3.4 2 4 6 Thckness(cm) Secondary gamma-ray dose equvalent n ordnary concrete for raonoenergetc neutron sources (G=4.-35., G5=3.-25., G9=2O. -8., G5=.-9., G22=5.-(5., G29=22.5-9.6MeV). 8 T ron Fg.3.5 2 Thckness(cm) 4 Neutron dose equvalent n ron for monoenergetc neutron sources (G=UO.-35., G5=3.-25., G9=2OO.-8O., G5=.-9., G22=5.-5., G29=22.5-9.6MeV) -58-

.JAEK - Date/Code 94-3 Fg.3.6 2 4 Thckness(cm) Secondary gamma-ray dose equvalent n ron for monoenergetc neutron sources (G=H.-35., G5=3.-25., G9=2.-l8., G5=. -9., G22=5.-U5., G29=22.5-9.6MeV). 5 Wate fef s o M C3 S c 5 Fg.3. k' ; H(r)= H o x k ; H(r)= H o x _ 5 Thckness(cm) Attenuaton length vs. thckness for dfferent sources n water. -59-

JAEK - ); 94-3 ^ 5 OJD c c o 3 e <u 5 X' ; H(r) = () x cxp(-r/k')/4jr* K ; (r) = H,,x cxp(-ra) 2 4 Thckness(cm) Fg.3.8 Attenuaton length vs. thckness for dfferent sources n ordnary concrete. 6 5 ~M 2 ron CD C o t-t S3 C }.'; H(r)= M () x cxp(-r/x';/4jtr" X ; H(r)= H o x cxp(-r/? Fg.3.9 2 Thckness(cm) 4 Attenuaton length vs. thckness for dfferent sources n ron. -6-

.JAKR - Unte/Cfde 94-3 Water neutron Fg.3. nfnte medum effect C H (E n, r) of dose equvalent for neutrons n water. Water 2nd. y-ray Fg.3. nfnte medum effect C H (E n, r) of dose equvalent for secondary gamma rays n water. -6-

JAKK Datc/Cod- 94 (MM Concrete neutron K(MQV) "'" Fg.3.2 nfnte medum effect C,, (E n> r) of dose equvalent for neutrons n ordnary concrete. Concrete 2nd.y-ray Fg.3.3 nfnte medum effect Q, (E n, r) of dose equvalent for secondary gamma rays n ordnary concrete. -62-

AKK--Date/Code 94-3 Fg.3.U nfnte medum effect C H (E n, r) of neutrons n ron. Thckness(m) Fg.3.5 nfnte medum effect C H (E n> r) of dose secondary gamma rays n ron. equvalent for -63-

.JAKM--Daw Code 94-3 2 Water J5 CD C c o «5 - G present value lj TO - () Fg.U. En(MeV) Energy dependence of attenuaton length obtaned at dfferent thcknesses n water. o 4 O 5 - Z OOO -- c c o s c - 5 - Ordnary concrete y 3cm J"^ + + 5cm Vfy^ Cm jx>^ ^ E,,(McV) - FfCCr ^F + Alsmller et al n) J " Wycoff et al. 2) ^ * Glbert et al.(earth)?) Recommended values by Thomas et al. ) present value Fg.U.2 Qr - JO 4 En(MeV) Energy dependence of attenuaton length obtaned at dfferent thcknesses n ordnary concrete, n wrch other data are compared. Glbert et al.'s data denotes for U.6 and 26.U GeV/c protons. -64-

./AKK - Uae/Codf 94-3 Ordnary concrete 4McV ff " -2 present data(plane) present data(sphercal) Alsmller et al.(plane) 2 4 6 Thckness(cm) n) 8 Fg.l.3 Comparson wth Alsmller et al.'s data for dose equvalent n plane geometry. ^ 5 s "DC x M s 4) c o 5 5McV OOMCV c < x cxp(-r/> fnnj; present data(plane) 2 4 6 8 Thckness(cm) Fg.U.4 Attenuaton length of ordnary concrete for dfferent neutron energes n plane geometry. -65-

.JAKK-Date/Code 94-3 3 N ron ^ 2 s c.2 OOO 3 wth wth * Ban ct al. 4) Howe et al. 3 ' @ Stevenson et.al. 6) HLO86R HLO86 E,.(MeV) *,!,_ u ' ur n- En(MeV) Fg.U.5 Energy dependence of attenuaton length obtaned n ron, n whch other data are compared. Expermental data by Ban et al. and Howe et al. and evaluated data by Stevenson et al. were gven for ncdent proton energy n MeV. -66-

JAKK Date/Code <M - OO.' Appendx:. Attenuaton Lengths n Ordnary Concrete 68 2. Attenuaton Lengths n ron 69 3. References -6-

JAKK Date/Ddo 94 3 Table A. Attenuaton lengths n concrete (from refs. [] and []) ncdent partcle Bean energy [GeV] She nateral ds densty [gem- 3 ] De tec or [gc«-*j Ref. Remarks BNL P.5 concrete 4.~4.3 CT 3± 5 tl] BNL P 2.5 concrete 4.~4.3 CT 69 ± 32 () CERN P 24 concrete 2.5 G5 45± [2] wde bean CERN P 2 heavy con 3.6 G5 5± 5 (2 narrow bean UCRL P 6.2 concrete 2.4 ll C 8± 2 [3] UCRL P 6.2 concrete 2.4 "Al 2± 2 [3] UCRL P 6.2 concrete 2.4 *"Au 6± 2 [3] ANL P 2.5 concrete 3.8 C 3± 8 5 CERN P 5 2 earth 2.2 ll C T A ± 2 ± 2 (6 KEK P.4 concrete 3.5 MP 2 [9 KEK P 2 concrete 2.35 MP 43 [ CT: Counter Telescope./ ll C,"Al, a2 S,: Actvaton detectors, /G5: Nuclear emulson./c: onsaton Chamber, /MP: Estmated value for Moyer Parameter -68-

.JAKK Dtf/Cod- <M 3 Table A.2 Attenuaton lengths n ron (from refs. [] and []) ncdent partcle Beaa energy [GeV] Shc >lds densty ateral [gc-»] De tec tor Ref. Reaarks CERN P 2 steel.8 G5 2+ [4-] bea axs CERN P 2 steel.8 G5 85± 2 [4-] nteg.beaa CERN P steel.8 G5 9± 5 [4-] beaa axs CERN P steel.8 G5 65± [4- nteg.beaa CERN P & 2 steel.8 C 55± 6 (4-V! CERN P & 2 steel.8 MC 28+ 8 [4-V] beaa axs CERN P ft 2 steel.8 MC 85± [4-V] nteg.beaa ANL P 2.5 steel.8 C 42± 5 [5] KEK P 2 steel.~.2 ll C 88± 2 [ CERN P steel.8 MP 4± [] RHEL P.4 steel.8 HP H" [8] KEK P.4 steel.5 MP 6 [9] G5: Nuclear emulson./mc: Monte Carlo calculaton, /"C, 2T A,"S,: Actvaton detectors./c: onsaton Chaaber, /MP: Estmated value for Moyer Paraaeter -69-

.AKK D.c Cmlc ll (H:< References [] R.H. Thomas:"Proton Synchrotron Accelarators",Engneerng Compendum on Radaton Sheldng,,56(968). [] S.J. Lndenbaum,Ann.Rev.Nuc.Sc.n.,23(96). [2] A. Ctron et al.,nucl.nst. and Methods 4,9(96). [3] A.R. Smth:UCRL-33(964). [4] H. Bndewald et al..nucl.nst.meth. 32.45(965). [4-] J. Gebel et al.:"part :General Descrpton of the Experment", N..M.32,pp.45-4(965). [4-] A. Ctron et al.:"part :A Study of the Nuclear Cascade n Steel by 9.2 GeV Protons",N..M.32,pp.48-52(965). [4-] R.L. Chlders et al.:"part Measurement of the Nuclear Cascade at GeV/c wth Emulson",N..M.32,pp.53-56(965). [4-V] J. Baarl et al.:"part V:Measurements of A and 9.2 GeV Proton Beam n Steel Usng onlzaton Chambers and Plastc Phosphors",N..M.32,pp.5-6(965). [4-V] L. Hoffmann et al.:"part V:Studes of the Sheldng Requred for the Secondary Radaton Produced by a Target n a Hgh-Energy Proton Beam",N..M.32.pp.6-64(965). [4-V] J.A. Gebel and J. Ranft:"Part V:Monte Carlo Calculaton of the Nucleon Meson Cascade n Sheldng Materals",N..M.32. pp.65-69(965). [5] H.J. Howe Jr., et al.:"n the Sheldng of the External Proton Tunnel Area of Argonne's Zero Gradent Synchrotron",ANL-23Q966). [6] W.S. Glbert et al.:"966 CERN-LBL-RHEL Sheldng Experment at the CERN Proton Synchrotron".UCRL-94K968). [] G.R. Stevenson et al.,health Phys. 43 3(969). [8] K.B. Shaw and G.R. Stevenson:"Radaton Studes Around Extracted Proton Beams at NMROD".EEE.Trans.Nucl.Sc. NS-6 5(969). [9] R.H. Thomas:"Transverse Sheldng for KENS:",Studes on Current Problems of Radaton Sheldng n KEK.KEK-8-.pp.5-28(98). [] S. Ban et al.,nucl.nst.meth.4,2(98). [] S. Ban:"Studes on the Sheldng of Hgh Energy Proton Synchrotron",Report at KEK(982),n Japanese. --

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ATTENUATON DATA OF PONT SOTROPC NEUTRON SOURCES UP TO 4HtV N WATER, ORDNARY CONCRCTE AND RON