International Bulletin on Atomic and Molecular Data for F U S I
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International Atomic Energy Agency INTERNATIONAL BULLETIN ON ATOMIC AND MOLECULAR DATA FOR FUSION Editors : K. Katsonis, J. Rumble Jr. and F.J. Smith Atomic and Molecular Data Unit Nuclear Data Section International Atomic Energy Agency Nuraber 9 July 1979 IAEA NUCLEAR DATA SECTION, KÄRNTNER RING 11. A-1010 VIENNA Reproduced by the IAEA in Austria July 1979 79-6321 - 1 - INTERNATIONAL BULLETIN ON ATOMIC AND MOLECULAR DATA FOR FUSION Editors : K. Katsonis, J. Rumble Jr. and F.J. Smith Atomic and Molecular Data Unit Nuclear Data Section International Atomic Energy Agency Number 9 July 1979 - 3 - TABLE OF CONTENTS I Introduction II Index to Recently Available Data .... 5 A. Structure, Spectra 5 (1) Energy Levels, Wavelengths .... 5 (2) Transition Probabilities, Oscillator Strengths 6 (3) Line Shapes and Shifts 7 (4) Polarizabilities, Electric Moments . 7 (5) Interatomic Potentials 7 B. Atomic and Molecular Collisions ... 8 C. Surface Effects 19 Bibliography 20 Author Index 56 III. Other literature 63 Structure, Spectra 63 Photon Collisions 65 Electron Collisions 66 Heavy Particle Collisions .... 68 Surface Interactions 71 Plasma Diagnostics 73 Plasma Composition, Impurities 74 Plasma Heating, Cooling and Fueling 75 Plasma Theory, Models ...... 75 Data, Bibliographies, Progress Reports 76 IV. Work in Progress 78 - 4 - I. INTRODUCTION T?iis Bulletin is issued quarterly by the International Atomic Energy Agency to assist the development of fusion research and technology. The material in the Bulletin has been selected by the editors as being possibly relevant to fusion research. Excluded for the present are special data needed for the design of high power lasers. Contributions are solicited on work in progress, import- ant new data in course of publication, and requests for data. Contributions should include an explanation of their applica- bility to fusion research and should be sent to: Dr. K. Katsonis IAEA, P.O. Box 590 A-1011 Vienna Austria The editors reserve the right to send any contributions to a referee. Material from the Bulletin should not be quoted in formal publications except by consent of the original author. Thanks are due to Dr. V.A. Abramov and Dr. V.M. Chicherov of the I.V. Kurchatov Institute of Atomic Energy, in Moscow, USSR, for a collection of indexed references to recent papers in Russian which are relevant to fusion. These are included in the Bulletin and marked with '*'. In the following index all energies are computed in centre-of-mass coordinates. IIo INDEX TO RECENTLY AVAILABLE DATA Ao Structure and Spectra (1) Energy Levels, Wavelengths H Theo 59 Si XII-XIV Exp 267 H2 Theo 26 Si XIII Exp 183 H2 Exp 259 p IX Exp £3 H2 + Theo 130 S Theo 176 H2 + Theo 131 Cl XIV Theo 265 H3 Exp 214 Ar Exp 298 H20 Exp 107 AT IV-XII Exp 153 H20+ Exp 140 K Exp 347 D2 Exp 259 Ca Exp 171 He Theo 233 Ca II Exp 247 He II Exp 137 Ca VI Theo 285 He- Theo 152 Ti Exp 111 Li Exp 138 Ti I-XXII Theo 278 Li Theo 241 V Exp 222 Li I-III Exp 139 Cr Exp 111 Li II Theo 209 Mn V Exp 295 Be Theo 216 Mn XII Exp £3 B Theo 279 Fe Exp 111 C IV Theo 215 Fe Exp 191 CH+ Exp 140 Fe Theo 243 CH» Exp 189 Fe X-XI Exp £3 CO Exp 189 Fe XVII Theo 285 C0+ Exp 140 Fe XXIV Theo 242 CO2 Theo 119 Co Exp 191 CO2 Exp 189 Ni Exp 1S1 : N V Theo 215 Ni XI-XII Exp £3 '< 0 II Exp 96 Cu Exp 191 0 II-VII Exp 334 Cu II Exp 104 0 V Theo 234 Zn Theo 252 0 VI-VII Theo 318 Ga Theo 220 02+ Theo 118 Ga Theo 226 02 + Exp 140 Ge Theo 230 02+ Exp 149 Kr Theo 20 Ne Exp 137 Kr Exp 170 Ne Theo 294 Kr XXXIII-XXXIVExp 145 Ne III-VII Thee 287 Rb Theo 226 Ne V Exp 93 Sr Exp 171 Ne VII Theo 263 Sr Theo 226 Ne VIII Exp 136 Sr I-II Exp 1S7 Ne IX Exp 93 Y Exp 113 Na II Theo 236 Zr Exp 113 Mg Exp 69 Zr Exp 223 Mg Exp 1?5 Zr V Exp 173 Mg Exp 217 Nb Exp 313 Mg Theo 216 Nb Exp 223 Al Exp 111 Mo Exp 113 Al II Exp 172 Mo Exp 223 Al IV Theo 285 Mo IX Exp 200 Al VII Exp 93 Mo XIV Exp 168 Si Theo 24 Mo XXXII Theo 215 Si Theo 25 Mo XXXII Theo 285 Si Exp 111 Te Exp 323 - 6 - Ru Exp 113 Au II Exp 104 Ru Exp 223 Au XXVI-XXXIX Exp 307 Rh Exp 113 Tl Theo 230 Rh Exp 223 Tl Theo 250 Pd Exp 113 Pb Theo 230 Pd Exp 323 Pb II-IV Exp 292 Ag Exp 204 Ag Exp 323 Isoelectron ie Series Ag Exp 346 He Z=2,7 Theo 122 Ag II Exp 104 He Z=2,10 Theo 200 Cd Exp 323 He Z=2,90 Theo 290 ïn Theo 230 He Z=13,15 Exp 192 Sn Theo 230 Li Z=3,6 Theo 54 Sb VII Exp 166 Li Z=3,9 Theo 129 Te VIII Exp 166 Li Z=3,10 Theo 152 I VI-VII Exp 153 Li Z=3,10 Theo 157 Cs Theo 265 Li Z=3,10 Theo S 24 Cs Theo 250 Li Z=3,28 Theo 202 Ba Exp 44 Li Z=ll,15 Theo 129 Ba Exp 171 Be Z-6,8 Theo 263 Ba Theo 204 C Z=6,10 Theo 240 Ba I-II Theo 185 C Z=20,34 9 Hf Exp 113 Ne Z=10,13 Theo 122 Ta Exp 113 Ne Z=36,42 Exp 216 W Exp 113 Na Z=36,42 Exp 216 W XXI-XXXIV Exp 307 Mg Z=12,74 Theo 164 Re Exp 113 Ar Z=18,21 Theo 122 Os Exp 113 Rb Z=39,42 Exp 178 Ir Exp 1?3 Ag Z=47,90 Theo 165 Ir II Exp 23 Ba Z=72,76 Exp 167 Pt Exp 113 (2) Transition Probabili ties, OsCo Strengths H2 Theo 133 Al IV Exp 141 J He2 r + Theo 64 Al IV Exp 309 Li Theo 241 Al IX-XI Exp 143 Li Theo 339 Si XI Exp 154 Li Theo 360 Si XI Theo 207 N V Exp 144 Si XI Theo 208 0 Theo 97 Si XIII Exp 134 0 Exp 155 Si XIII Exp 267 0 II Theo 96 P XII Exp 154 Oz* Exp 115 S Theo 176 Ne Exp 16 S XIII Exp 154 Ne Exp 155 Cl IX-XV Exp 147 Ne Exp 297 Cl XIV Exp 354 Ne VII Theo 263 Cl XIV Theo 565 Na Theo 160 Ar IV-XII Exp 151 Na V-VII Exp 22 Ar XV Theo 207 Mg IX Theo 207 Ar XV Theo £ C 8 Mg IX Theo 208 Ar XVI-XVII Exp 146 Al Theo 284 Ar XVI-XVII Theo 361 Al Exp 338 Ca XVII Theo 207 Al II-VI Exp 135 Ca XVII Theo 208 Al II-VII Exp 150 Ca XVII Theo 264 Al II-VII Exp 303 Mn v Exp 11 Al IV Theo 17 Fe II Theo 103 - 7 - Fe II-III Exp 190 Cs Exp 259 Fe XXIII Theo 207 5a Exp 42 Fe XXIII Theo 208 Tl Theo 284 Fe XXIII Theo 264 Tl Theo 350 Fe XXIV Theo 242 Co I-II Exp 156 Isoelectronic Series Zn I-II Exp 299 H Z=l,100 Theo 106 Ga Theo 284 He Z=2,56 Theo 12 Kr Theo 50 He Z=2,100 Theo 296 Kr VIII Theo 158 Be Z=6,8 Theo 2€3 Kr XXXIII Theo 264 C Z=6,10 Theo 240 Kr XXXIII-XXXIVExp 145 0 Z=12,14 Theo 266 Rb Theo 160 Ne Z=10,92 Theo 241 Rb Exp 184 Na Z=ll,16 Theo 13 Sr Exp 110 Mg Z=12,18 Theo 567 Mo XXXIX Theo 264 Mg Z=12,?4 Theo 164 In Theo 284 Si Z=14,16 Theo 148 Sb II Exp 289 Cu Z=29f74 Theo 242 I I-II Exp 174 Cu Z=29,82 Theo 45 I VI-VII Exp 153 Zn Z=30,92 Theo 45 Cs Theo 350 Ag Z=47,90 Theo 165 (3) Line Shapes and Shifts H Exp 43 He Exp 247 H Theo 199 He II Theo 142 H Exp 238 He II Theo 244 H Theo 245 C VI Exp 255 H Theo 246 Ne Exp 226 H Exp 305 Ne Exp 257 H Theo 311 Ne X Theo 244 H Theo 313 Mg XI Exp 369 H Exp 356 Al XII Exp 369 H Exp 358 Si VIII Exp 94 H2 Exp 356 Si XIII Theo 246 Theo 177 Si XIV Theo 244 D Exp 358 S Theo 176 He Theo 52 Ar Exp 2S8 He Exp 60 Fe XI-XII Exp S4 He Theo 246 Tl Theo ZS3 (4) Polarizabili tie3, Electric Moments H II Theo 132 Hg Exp 262 H- Theo 19 Tl Theo 18 H2 Theo 125 Cl XIV Theo 365 Isoelectronic Ser i es Zn Exp 362 He Z=2,10 Theo 114 Cd Exp 362 (5) Interatomic Potentials He - He+ Theo 261 H - CO Exp S8 He+ - Ca Theo 275 He - CH4 Exp 116 He+ - Ba Theo 275 He - H20 Exp 116 He - HD Theo 126 D - H2 Exp 317 He - Ha+ Theo 127 0 - 0+ Theo 118 C - H+ Theo 262 H - He Theo 179 H - 0++ Theo 101 He - Rb Theo 351 H - Ne++ Theo 101 He - Cs Theo 351 - fl - Eo Atomic Molecular Collisions hv + H- Photoionization E= 80 - 1000 keV Theoo 65 hv •+• He Photodissoco Theo.