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
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1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
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