4_Laser.dvi
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- よしじろう わしあし
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1 A.Einstein 1917 A.Einstein 1954 C.H.Townes MASER Microwave Amplification by Stimulated Emission of Radiation 23.9 GHz 1.26 cm 1960 T.H.Maiman LASER Light Amplification by Stimulated Emissin of Radiation cm 1
2 2 ( ( ) 2
3 L = n λ 2 3
4 3 = 4
5 Nd He Ne Nd YAG Ar ( ) He Cd He Ne Ar Nd YAG Nd 5
6 5 5.1 Al 2 O 3 +Cr 2 O 3 (0.05%) 5.2 Nd YAG Nd 3+ Y 3 Al 3 O 12 Nd 3+ Y W YAG 1.06 μm ( 0.94 μm μm μm CO 2 1/10 6
7 5.3 Cr 3+ BeAl 2 O 4 Cr 3+ Be 3 Al 2 (SiO 3 ) 6 GSGG Cr 3+ Gd 3 Sc 2 Ga 3 O 12 Ti 3+ Al 2 O nm nm nm nm 5.4 ( Er 1.55 μm Yb μm( 10kW ) 1.55 μm 100W 10 7
8 6 6.1 He-Ne 1 10 mw 2 3 Ne He He Ne 1.15 μm nm nm 1 3 Torr He Ne kv 10 kv 2 3 ma mw 6.2 Ar : 1 2 : W 10 mw 100W nm 488 nm 1Torr 100 V 10 A 8
9 6.3 CO 2 N 2 He : CO 2 5% N 2 15% CO 2 He 80% 10.6 μm 9.6 μm ( MW 15 30% 6.4 excimer excited dimer W % 9
10 KrF Kr F 2 Kr F UV Xe( Xe 2 Kr 2 Ar 2 KrF( ) XeF( ) ArF( ) XeCl μm HgBr HgCl HgI TFT ) HeCd 10
11 1, nm( ) 578nm( ) 400 (20 40ns) (40kW) HeCd 250 He 325nm( ) 442nm( ) :442nm 150mW 325nm 40mW 11
12 μm () S 1 S 0 T 1 T 2 T 1 12
13 / 1962 GE IBM MIT nm GaAs N.Holonyak GaP 650nm
14 GaAlAs 780 nm W 10 W 50 W InGaAsP 1.3 μm 1.5 μm AlGaInP 650 nm 580 nm μm 100 mw GaN InGaN 400 nm GaN 531 nm FEL cm μm μm 150 nm MW 14
15 10 1 Å 11 ( MW ( Hydrogen Fluoride (HF) HF μm 3.8μm Deuterium Fluoride (DF) 15
16 Chemical Oxygen Iodine Laser (COIL) ( ) 145 2NaOH + Cl 2 +H 2 O 2 2NaCl + O 2 +2H 2 O (2KOH) 1.32μm () mW W 10kW () (NCl 3 ) (H) (HI) 16
17 μW (400nm 700nm) 1mW M (5mW) B 0.5W 0.5W B ( ) 17
18 13 ( InGaAsP 1.48 μm SiO 2 70km (300 ) ) Nd YAG GaAlAs 14 Laser Radar Lidar Light Detection and Ranging
19 Nd YAG GaAlAs CO 2 NASA } nm Ti Al 2 O nm Co MgF μm CH 4 Nd YAG 1.06 μm SO 2 NO 2 { Nd YAG LGB(Laser-guided bombs) 19
20 15 A 1 A 2 He-Ne nm/0.15 μm LSI M A B / He-Ne nm 20
21 16 Ar + Kr D Gabor R O H ) He-Ne Ar + 21
22 17 CD CD-ROM CD-R CD-RW ) Ar nm 780 nm He-Ne 0.4 μm.8 μm 1.5 Digital Video Disc DVD CD-RW ) Blue Ray Disc BD CD DVD BD( ) 780nm 650nm 405nm 870nm 400nm 150nm 700MB 4.7GB 2 25GB 2 22
23 18 Pd-Cu-Si Ni IC CO 2 10kW Nd YAG 5.5kW CO 2 10kW 100W 1.55μm 23
24 19 KrF 248 nm LSI Cl 2 Si CVD Chemical Vapor Deposition Al(CH 3 ) 3 Al Al(CH 3 ) 3 N 2 O C 2 H 2 H 2 ArF Al 2 O 3 C Zn(CH 3 ) 2 NO 2 (CH 3 ) 3 InP(CH 3 ) 3 P(CH 3 ) 3 ZnO InP Al(CH 3 ) 3 or B(CH 3 ) 3 Al or B 24
25 20 CO 2 Nd YAG nm Ar + 25
26 U 235 U 238 U 235 U H 4 2He + 2e MeV Coulomb 0.29MeV D+ 3 1T 4 2He + n +17.6MeV T 6 3Li + n 4 2He + 3 1T+4.8MeV 7 3Li + n 4 2He + 3 1T+n 2.47MeV 26
27 2 1D+ 2 1D 3 2He + n +3.27MeV 2 1D+ 2 1D 3 1T+p +4.03MeV D 1/650 T Gekko, Water Fall B.E.A.Saleh M.C.Teich J.Wilson J.F.B.Hawkes
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Radiation Detection & Measurement (1) (2) (3) (4)1 MeV ( ) 10 9 m 10 7 m 10 10 m < 10 18 m X 10 15 m 10 15 m ......... (isotope)...... (isotone)......... (isobar) 1 1 1 0 1 2 1 2 3 99.985% 0.015% ~0% E
2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
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42 S H He Li H He Li Be B C N O F Ne Be B C N O F Ne H He Li Be B H H e L i Na Mg Al Si S Cl Ar Na Mg Al Si S Cl Ar C N O F Ne Na Be B C N O F Ne Na K Sc T i V C r K Sc Ti V Cr M n F e C o N i Mn Fe Mg
RAA-05(201604)MRA対応製品ver6
M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構
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2 1 7 - TALK ABOUT 21 μ TALK ABOUT 21 Ag As Se 2. 2. 2. Ag As Se 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 Sb Ga Te 2. Sb 2. Ga 2. Te 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4
42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =
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3 3.1 3.1.1 kg m s J = kg m 2 s 2 MeV MeV [1] 1MeV=1 6 ev = 1.62 176 462 (63) 1 13 J (3.1) [1] 1MeV/c 2 =1.782 661 731 (7) 1 3 kg (3.2) c =1 MeV (atomic mass unit) 12 C u = 1 12 M(12 C) (3.3) 41 42 3 u
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NPO 2006( ) 11 14 ( ) (2006/12/3) 1 50% % - - (CO+H2) ( ) 6 44 1) --- 2) ( CO H2 ) 2 3 3 90 3 3 2 3 2004 ( ) 1 1 4 1 20% 5 ( ) ( ) 2 6 MAWERA ) MAWERA ( ) ( ) 7 6MW -- 175kW 8 ( ) 900 10 2 2 2 9 -- - 10
1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e
No. 1 1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e I X e Cs Ba F Ra Hf Ta W Re Os I Rf Db Sg Bh
元素分析
: このマークが付してある著作物は 第三者が有する著作物ですので 同著作物の再使用 同著作物の二次的著作物の創作等については 著作権者より直接使用許諾を得る必要があります (PET) 1 18 1 18 H 2 13 14 15 16 17 He 1 2 Li Be B C N O F Ne 3 4 5 6 7 8 9 10 Na Mg 3 4 5 6 7 8 9 10 11 12 Al Si P
1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合
1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合の実効線 務従事者 区域外の 区域外の 量係数 量係数 の呼吸す 空気中の 水中の濃 る空気中 濃度限度
RN201602_cs5_0122.indd
ISSN 1349-1229 No.416 February 2016 2 SPECIAL TOPIC113 SPECIAL TOPIC 113 FACE Mykinso 113 SPECIAL TOPIC IUPAC 11320151231 RI RIBFRILAC 20039Zn30 Bi83 20047113 20054201283 113 1133 Bh107 20082009 113 113
1.06μm帯高出力高寿命InGaAs歪量子井戸レーザ
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6 2 T γ T B (6.4) (6.1) [( d nm + 3 ] 2 nt B )a 3 + nt B da 3 = 0 (6.9) na 3 = T B V 3/2 = T B V γ 1 = const. or T B a 2 = const. (6.10) H 2 = 8π kc2
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吸収分光.PDF
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