Excimer Lasers C.K. (ed.), Brau C.A., Egger H. — Excimer Lasers :: Электронная библиотека попечительского совета мехмата МГУ

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Excimer Lasers C.K. (ed.), Brau C.A., Egger H. — Excimer Lasers

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Название: Excimer Lasers

Авторы: Excimer Lasers C.K. (ed.), Brau C.A., Egger H.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2nd edition

Год издания: 1984

Количество страниц: 271

Добавлена в каталог: 17.11.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

"First continuum", rare-gas molecular spectra      12
"Reflection method" for evaluation of excimer lineshape      36
"Second continuum", rare-gas molecular spectra      12
$ArCl_{2}$       72 78 82 92
$ArKr^{+}$       130
$ArO^{+}$       22
$Ar^{+}$       48 76 131
$Ar_{2}$       13 49 51
$Ar_{2}F$       94 181
$Ar_{2}F^{\ast}$       33 131 190ff. 202
$Ar_{2}^{*}$       4 51 76—78 131
$Ar_{2}^{+}$       9 49 76—79 81 131
$Br^{-}$       81
$Br_{2}$       48 67 70 78 200
$Br_{2}^{+}$       74
$Br_{2}^{\ast}$       71
$C(^{1}D_{2})$       23
$Ca_{2}$       32
$CCl_{4}$       197
$Cd_{2}$       32
$Cd_{3}$       34
$CF_{3}I$       69 72 78 128
$CHBr_{3}$       200
$CH_{2}Cl_{2}$       94
$CH_{2}I_{2}$       81
$CH_{3}I$       69 72
$CH_{4}$       127
$Cl_{2}$       48 69—71 81 197
$Cl_{2}^{+}$       74
$Cl_{2}^{\ast}$       71 81
$CoCl_{2}$       81
$CO_{2}$       65
$C_{3}F_{7}I$       128
$D_{2}$       127
$F_{2}$       48 67
$HeF^{+}$       16
$HeNe^{+}$       10
$He_{2}$       1 2 8 11
$He_{2}^{+}$       2 8 9
$He_{2}^{\ast}$       3 9
$HgAr^{+}$       26
$HgBr_{2}$       172
$HgCl_{2}$       173
$Hg^{+}$       26
$Hg_{2}$       30 34 164
$Hg_{2}Cl_{2}$       173
$Hg_{2}F_{2}$       173
$Hg_{2}^{+}$       31
$Hg_{3}$       33 166
$H_{2}$       7 127
$H_{2}O$       47
$I^{-}$       76 78—81
$I_{2}$       48 70 75—80
$I_{2}^{+}$       76 80
$KrAr^{+}$       12
$KrF^{+}$       16
$KrF^{\ast}$       89 130
$KrN_{2}F^{\ast}$       194
$KrO_{2}$       63
$Kr^{+}$       21
$Kr_{2}F$       33 92 181 192ff.
$Kr_{2}F^{\ast}$       183
$Kr_{2}^{+}$       9 81
$Kr_{2}^{\ast}$       4 9
$Li^{+}$       23
$Mg_{2}$       28 30 162
$Mg_{2}^{+}$       31
$Na^{+}$       23
$Na_{2}$       151
$NeF^{+}$       16
$Ne_{2}$       10 11
$Ne_{2}F$       33
$Ne_{2}^{+}$       9 10
$NF_{3}$       94 97
$N_{2}$       47 61
$N_{2}F_{4}$       94
$N_{2}O$       61
$O(^{1}S)$       61 64
$OF_{2}$       97
$O_{2}$       47
$S(^{1}S)$       65
$SF_{6}$       94
$TbCl_{3}(AlCl_{3})_{n}$       128
$XeF^{+}$       16 32
$XeKr^{+}$       12
$Xe^{+}$       21 104
$Xe^{+}_{2}$       9 104 105 108
$Xe^{\ast}_{2}$       9 38 61 80 103 105
$Xe_{2}$       8 10 61
$Xe_{2}Br^{\ast}$       200
$Xe_{2}Cl$       92
$Xe_{2}Cl^{\ast}$       183 186 197 202
$Xe_{2}F^{\ast}$       33 93 187 195 202
$Xe_{2}O^{\ast}$       34
$Zn_{2}$       28
Absorption coefficients, $Hg_{2}$       167 171
Absorption coefficients, $Mg_{2}$       163
Absorption coefficients, $Na_{2}$       151
Absorption coefficients, CsXe      154
Absorption coefficients, HgXe      157
Absorption coefficients, LiHe      152
Absorption coefficients, LiXe      152
Absorption coefficients, NaHg      161
Absorption coefficients, NaXe      151
Absorption coefficients, RbXe      154
Absorption coefficients, TlXe      154
Absorption coefficients, weakly bound states      141
Absorption cross-sections, broadband      204
Absorption, $Hg_{2}$       171
Absorption, $Hg_{2}^{\ast}$       168
Absorption, $R_{2}X^{+}$ molecules      33
Absorption, $Tl_{2}$       160 171
Absorption, $Xe_{2}Cl$       186
Absorption, alkali dimers      152 153
Absorption, excimer bands of $Na_{2}$       152
Absorption, excited state      13
Absorption, from continuum states      42
Absorption, from ground state of rare gases      54
Absorption, rare-gas metastable states      204
Absorption, rare-gas oxide systems      64ff.
Absorption, TlHg      171
Absorption, triatomic rare-gas-halides      204
AgCu      32
Alkali-rare-gas systems      23ff. 148
applications      229ff.
Applications, rare-gas-halide lasers      120ff.
ar      48 76 131
Ar*      48 76 131
ArBr      16 89
ArCl      16 69
ArCl*      78
Arf      16 65 87 127
ArF*      15 78 130
ArKr*      130 131
ArKrF*      130 131
ARO      20 58 63
ArXeF      92 94
Auroral band, rare-gas-halides      20
Auroral transition, group IV-A elements      60
Auroral transition, rare-gas — group VI-A excimers      19
Avalanche discharges, rare-gas-halide laser pumping      122ff.
BA      160
BaNe      25
Blumlein circuit      122 123
Boltzmann distribution      42
Boltzmann equation      175 176
Boltzmann equilibrium      12
Broad bandwidth emission      181
CA      160
Cavity quality deterioration      177

Charge transfer, rare-gas oxides      21
Charge transfer, rare-gas-halides      15
CN      47
Collision-induced excimer bands      153ff.
Collision-induced transition alkali atoms      25
Condensed matter      243ff.
Configuration mixing, effect on bound states      6
Configuration mixing, ion-pair and Rydberg states of rare-gas-halides      16
Configuration mixing, rare-gas fluorides      15
Configuration mixing, rare-gas oxides      21
Configuration mixing, Rydberg states of rare-gas dimers      10
Correlation diagrams, $R_{2}X^{+}$ systems      33
Coulomb curve      88
Coupling parameter, two-quantum excited $H_{2}$       236 238
Crossings, $Ar_{2}$ excimers      50
Crossings, $Cl_{2}$ excimers      240
Crossings, $Xe_{2}F$ excimers      187
Crossings, $\sum-\Pi$ in rare-gas-halides      15
Crossings, excimer systems      3
Crossings, metal systems      30
Crossings, rare-gas oxides      20
Crossings, rare-gas — group IV-A systems      33
Crossings, rare-gas — group V systems      28
Crossings, rare-gas-monohalides      88
Cryogenic liquids, multiphoton excitation      245
Cryogenic liquids, spectroscopy with UV lasers      244
CS      153
Deactivation rates, molecular iodine systems      75
Deactivation rates, oxygen metastables      59
Diatomic halogens      1 48
Dimer ions, energy of valence orbitals      8
Dipole polarizability, rare-gas dimer ions      9
Dipole polarizability, Rydberg states      11
Discharge stability      110 118 175 177
Discharges, alkali-noble gas excitation      176
Discharges, Hg vapor excitation      175
Discharges, metal vapor excitation      174
Discharges, NeXe excitation      176
Discharges, rare-gas-halide laser pumping      111 116
Discharges, triatomic rare-gas-halide pumping      206
Dissociation energy, rare-gas fluorides      14
Dissociation energy, rare-gas homonuclear dimers      9
Dissociative attachment, electron loss in rare-gas-halide lasers      120
Dissociative attachment, rare-gas-halide excimer formation      97 98
Dissociative recombination, $Cl_{2}$       240
Dissociative recombination, electron loss in rare-gas-halide lasers      120
Dissociative recombination, homonuclear halogen excimer formation      77 78
Dissociative recombination, rare-gas ions      49 102 105
Dye lasers, excitation      247
Dye lasers, primary radiation source for excimer media      219
Dye lasers, pumped by excimer lasers      248
e-beam sustained discharge, diatomic halogen laser excitation      67
e-beam sustained discharge, rare-gas laser excitation      47
e-beam sustained discharge, rare-gas-halide laser pumping      118 122
e-beam, $Hg_{2}$ excitation      164 174
e-beam, coupling geometries to active media      205
e-beam, diatomic halogen laser excitation      67 68
e-beam, excimer laser excitation      1
e-beam, HgXe excitation      174
e-beam, metal vapor excitation      174
e-beam, rare-gas laser excitation      47 48
e-beam, rare-gas — group IV-A laser excitation      61
e-beam, rare-gas-halide laser pumping      110—113
e-beam, triatomic rare-gas-halide pumping      205 206
Efficiency of excimer lasers      229
Efficiency, diatomic halogen fluorescence      82
Efficiency, discharge excitation of NaXe      177
Efficiency, discharge excited metal vapor lasers      139 174
Efficiency, discharge pumping of rare-gas-halide lasers      116 117 120
Efficiency, e-beam excited metal vapor lasers      139 174
Efficiency, e-beam pumping of rare-gas-halide lasers      112 113
Efficiency, e-beam pumping of triatomic rare-gas-halide lasers      205
Efficiency, metal vapor excimer lasers      173
Efficiency, rare-gas excimer lasers      47 56
Efficiency, rare-gas fluorescence      53
Electron impact ionization      119
Emission parameters, rare-gas oxides      60
Emission spectra, auroral line      19
Emission spectra, cryogenic liquids      246
Emission spectra, homonuclear diatomic halogens      64
Emission spectra, KrO      64
Emission spectra, rare-gas molecules      12
Emission spectra, rare-gas-halides      16 89
Emission spectra, TlXe      158
Emission spectra, XeO      64
Energy transfer, homonuclear diatomic halogens      68 75
Energy transfer, noble gas-acceptor molecule      47
Energy transfer, rare-gas mixtures      106
Energy transfer, rare-gas-halide quenching      100
Energy transfer, xenon/oxygen mixtures      62
Equilibrium internuclear separation, rare-gas dimers      48
Equilibrium internuclear separation, rare-gas fluorides      14
Equilibrium internuclear separation, rare-gas homonuclear dimers      9
Equilibrium internuclear separation, rare-gas-monohalides      89
Exchange, effect on heteronuclear rare-gas dimers      10
Exchange, repulsion in rare-gas alkali systems      23
Exchange, repulsion in rare-gas-halides      13
Excimer bands, alkali-noble gas systems      148 149
Excimer bands, alkali-Xe systems      151
Excimer bands, group II—VIII systems      155
Excimer bands, HgCd      163
Excimer bands, HgXe      156 157
Excimer bands, TIXe      170
Excimer bands, TlHg      169 170
Excimer states, charge transfer      7 19 88
Excimer states, covalent      7 19
Excimer states, Rydberg      7 8 10 16 19
Excimer transitions, Hg-Xe system      25
Excimer transitions, rare-gas alkali system      24
Excimer-excimer annihilation      52 55
Excimers      1 5
Excited state-excited state reactions group VI-A atoms      58
Extraction efficiency, diatomic halogen lasers      80 81
Extraction efficiency, rare-gas-halide lasers      121
Flashlamp excitation, metal vapor systems      173
Fluorescence spectra, $Ar_{2}F^{\ast}$       192
Fluorescence spectra, $Xe_{2}Cl^{*}$       199
Fluorescence spectra, Hg      165
Fluorescence spectra, KrF      91
Fluorescence yield, $Xe_{2}F$       195
Fluorescence yield, molecular halogen systems      82
Fluorescence yield, XeF      195
Four-wave mixing, wavelength shifting of rare-gas-halide lasers      127
Franck — Condon envelope      6 28
Franck — Condon factor      5 32 96
Franck — Condon principle      145ff.
Gain      41 42 144 150 200 203
Gain coefficient, metal-based excimers      139
Gain cross-section, excimer emissions      34ff. 35
Gain cross-section, rare-gas-halides      93
Gain cross-section, triatomic rare-gas-halides      94
Geometry, triatomic rare-gas-halides      185 186
Ground state, alkali-Hg molecules      32
Ground state, energy of rare-gas dimers      10
Ground state, group II homonuclear molecules      28 29
Ground state, rare-gas-halides      13 14 88
Group I atoms      139
Group II atoms      25 139
Group III atoms      139
Group III—II excimers      169ff.
Group III—VIII excimers      57ff.
Group II—II excimers      162ff.
Group II—VIII excimers      155ff.
Group IV atoms      22
Group I—III excimers      160ff.
Group I—VIII excimers      148ff.
Group V atoms      27
Group VI atoms      19 21 58ff.
Harpooning reactions, diatomic halogen formation      68
Harpooning reactions, rare-gas-halide formation      97

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