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Cherrington B.E. — Gaseous Electronics and Gas Lasers
Cherrington B.E. — Gaseous Electronics and Gas Lasers



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Название: Gaseous Electronics and Gas Lasers

Автор: Cherrington B.E.

Аннотация:

The book stresses the fundamental processes occurring in gas discharges and develops the analytical methods used to calculate important process rates. This background is then applied to detailed analyses of a variety of gas discharges with atomic, ionic and gas lasers being used as primary illustrations as well as important topics of study in their own right. However, the general processes and methods of analysis considered are applicable to any aspect of weakly ionized gas discharges. This book proceeds from the simplest models of a gas discharge through the most complex as the need for greater sophistication becomes apparent. Chapters one through six follow this sequence and complete the analytical framework for the study of gas discharges. Chapters seven through nine blend this framework with a thorough consideration of fundamental rate processes in order to establish the temporal and spatial behavior of charged, neutral and excited species in pulsed and D.C. discharges. Chapters ten through twelve then proceed to an in depth analysis of selected atomic, ionic and molecular gas lasers that are of significant current interest.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1979

Количество страниц: 266

Добавлена в каталог: 16.11.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Excited species He ($2^{3}S$) metastables      172—176
Excited species Ne ($1s_{5}$) metastables      163 169—170
Excited species Ne ($3s_{2}$)      187—189
Fluid equations      108—113
Flux      116
Franck — Condon factor      216—217
Gain (optical)      180
Gain in $CO_{2}$      235
Gain in $N_{2}$      215
Gain in He-Ne      190—191 193
Gain in Ne      193
Gain small signal      183—184
Gas density profiles      113
Gas heating      151—153
Gas heating by molecular relaxation      234—236
Gas heating, electronic      234
Harpoon reaction      246
He ($2^{3}S$)-excitation rate      174
He ($2^{3}S$)-ionization rate      175
He ($2^{3}S$)-metastables      172—178 187—189
He ($2^{3}S$)-saturation of excited species      175—176
He-Cd-lasers      200—201
He-energy level diagram      173
He-metastable-metastable collisions      173 177
He-Ne energy level      185—186
He-Ne laser      185—194
He-Ne-energy level diagram      185—186
He-Ne-lasers      185
He-Ne-lasers, cascade      195
Heat current      111
Hg ($6^{3}P_{1}$)-excitation rate      55
HgBr-lasers      248
HgCl-lasers      248
HgI-lasers      248
Hydrogen laser (molecular)      220—222
Hydrogen laser, Lyman band      221—222
Hydrogen laser, Werner band      221—222
Impact parameter      25
Impact parameter, critical      37
Interaction potential      27—29 36
Ion conversion      134
Ion conversion in Ar      134
Ion conversion in Kr      134
Ion conversion in Ne      134
Ion conversion in Xe      134
Ion-ion recombination      246
Ionization balance      83 145 154
Ionization cross section $CO_{2}$      43
Ionization cross section He      39
Ionization cross section He ($2^{3}S$)      40
Ionization cross section Ne ($1s_{5}$)      168
Ionization electron, collisional      3 38—40 115
Ionization frequency      147
Ionization, one step      144
Ionization, Penning      3
Ionization, photo      2
Ionization, two step      78 80—81 150
Ionization, two step in He      175
Ionization, two step in Ne      167—168
Ions, negative      2
Ions, positive      2
KrCl-lasers      245
KrF laser      245—248
KrF laser, energy level diagram      245
KrF laser, gas mixtures      246
KrF-energy level diagram      245
KrF-lasers      244
Krypton ion laser      208
Langevin equation      11
Langevin equation, corrections to      102—106
Laser efficiency, excimer      238—239
Laser power      184
Lasers, concept      180
Lasers, metal vapor      200—202
Legendre polynominals      60 62 254—256
Light intensity      181
Lineshape      181
Lorentz gas      11
Mean free path      22
Mercury — Halide Lasers      248
Metastable-metastable collisions      164
Micron      2
Mobility electron      13
Mobility ion      98—99
Mobility ion in He, Ne, Ar      99
Models two and three electron group      77—85
Molecular structure      210
Molecular structure rotation      211
Molecular structure vibration      211
Molecular structure, electronic      212
Momentum conservation      110—111 116 144
Ne ($1s_{5}$)-excitation rate      165
Ne ($1S_{5}$)-ionization rate      168
Ne ($1s_{5}$)-metastables      163—172
Ne ($1s_{5}$)-saturation of excited species      169—170
Ne-energy level diagram      163 197
Ne-lasers      193 197
Ne-metastable-metastable collisions      166
Neutrals      1—2
Neutrals, density      2
Nitrogen laser (molecular)      214—220
Nitrogen laser energy level diagram      215
Nitrogen laser first positive band      214
Nitrogen laser power      214—215 219—220
Nitrogen laser second positive band      214
Nitrogen laser, pulsed      217—220
P branch      212—213 224
Phase space      49 57
Plasma frequency, electron      7—8
Plasma frequency, ion      16
Poisson's equation      6 123
Polarization      9 14
Polarization, interaction potential      36 98
Population inversion      180
Population inversion in $Ar^{+}$      206
Potentials, attractive      35—38
Power partition in $CO_{2}:N_{2}:He$      231
Power partition in $N_{2}$      76
Power partition in Hg      76
Pressure      2
Pressure, scalar      111
Pressure, tensor      110
Q branch      212
Quasi-neutrality      2 5 120
R branch      212—213 224
Radiative cascade      204
Radiative decay      162 166
Radiative decay in $Ar^{+}$      205
Radiative decay in $CO_{2}$      227
Radiative decay in $Xe_{2}$      242
Radiative lifetime      83
Radiative lifetime in $Xe_{2}$      242
Radiative lifetime in Hg      162
Radiative trapping      162 167
Rate coefficient      50
Rate processes      75 115 182
Reaction cross section      37
Recombination at high pressures      135
Recombination cross section $e + NO^{+}$      45
Recombination cross section $e + O_{2}^{+}$      45
Recombination electron-ion      45 115
Recombination in Ne      172
Recombination ion-ion      3 246
Recombination light emission      171
Recombination spatial dependence      129
Recombination time dependence      129
Recombination, collisional      3 130—132
Recombination, collisional electron      130—131
Recombination, collisional electron coefficient in $Cs^{+}$      132
Recombination, collisional neutral      131—132
Recombination, collisional neutral, coefficient in $He^{+}$      133
Recombination, dissociative      3 132—135 172
Recombination, dissociative coefficients in $Ar_{2}^{+}$, $CO_{2}^{+}$, $He_{2}^{+}$, $Ne_{2}^{+}$, $N_{2}^{+}$, $NO^{+}$ , $O_{2}^{+}$, $Kr_{2}^{+}$, $Xe_{2}^{+}$      134
Recombination, electron temperature dependence      135—136
Recombination, electron temperature dependence collisional      136
Recombination, electron temperature dependence dissociative      135
Recombination, electron temperature dependence in $Ar_{2}^{+}$, $Ne_{2}^{+}$, $N_{2}^{+}$, $O_{2}^{+}$      136
Recombination, electron temperature dependence radiative      135
Recombination, ion temperature dependence      136
Recombination, radiative      130
Relative velocities      59
Resonance radiation      167
Saturation intensity      183 218
Scattering angle, coulomb      29—30
Scattering angle, hard sphere      28
Scattering, classical      24—38
Similarity laws He-Ne laser      192—194
Space charge field      121—123 126
Spontaneous emission      181
Spontaneous emission in He-Ne      189
Stimulated emission      181—182
Stimulated emission, cross section in $Xe_{2}^{*}$      243
Stimulated emission, cross section in KrF*      247
Superelastic collisions      3 167
Tail electrons      77—85
Temperature distributions neutral gas      113 153
Temperature electron      4—6
Temperature electron in DC discharge      146—148
Temperature electron in helium afterglow      176—178
Temperature electron under influence of electric field      18 65 88
Temperature gas (neutral)      64 87 152—153 234—235
Temperature ion      6
Temperature, vibrational cooling      236
Temperature, vibrational in $CO_{2}$ lasers      233 236
Thermal energy      6 111
Thermal velocity      5 13 110
Thermodynamic equilibrium      5
Three body conversion      164 238
Three body conversion for neon      166
Three body conversion for rare gas dimers      241
Three body conversion for xenon      242
Torr      2
Two body conversion in neon      166
Upflux      85—93
Viscous damping      11
Xe-energy level diagram      197
Xe-lasers      197
XeBr-lasers,      244
XeCl-lasers      244
XeF-lasers      245
Xenon molecular laser      239—244
Xenon molecular laser, efficiency      239
Xenon molecular laser, energy level diagram      240
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