Content of issue 03, volume 33, 2020

Topical issue. Proceedings of the XIV International Conference AMPL

1. Evtushenko G.S., Klimkin A.V., Pogodaev V.A., Trigub M.V. Photonics as an effective tool for solving fundamental and applied problems—based on the materials of XIV AMPL conference. P. 163–168
Bibliographic reference:
Evtushenko G.S., Klimkin A.V., Pogodaev V.A., Trigub M.V. Photonics as an effective tool for solving fundamental and applied problems—based on the materials of XIV AMPL conference. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 163–168 [in Russian].
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2. Razhev A.M., Churkin D.S., Tkachenko R.A. Pulsed inductive IR Ar I laser. P. 169–172
Bibliographic reference:
Razhev A.M., Churkin D.S., Tkachenko R.A. Pulsed inductive IR Ar I laser. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 169–172 [in Russian].
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3. Razhev A.M., Churkin D.S., Karagapoltsev E.S., Tkachenko R.A., Trunov I.A. IR Xe I laser pumped by pulsed induction cylindrical discharge. P. 173–176
Bibliographic reference:
Razhev A.M., Churkin D.S., Karagapoltsev E.S., Tkachenko R.A., Trunov I.A. IR Xe I laser pumped by pulsed induction cylindrical discharge. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 173–176 [in Russian].
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4. Belskaya E.V., Bokhan P.A., Gugin P.P., Zakrevsky Dm.E. Lasing characteristics of a thallium-ion laser excited by an electron beam. P. 177–182
Bibliographic reference:
Belskaya E.V., Bokhan P.A., Gugin P.P., Zakrevsky Dm.E. Lasing characteristics of a thallium-ion laser excited by an electron beam. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 177–182 [in Russian].
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5. Evtushenko G.S., Petukhov T.D., Sukhanov V.B., Troitskii V.O., Kuryak A.N., Trigub M.V. Sodium vapor active element excited by nanosecond optical pulses. P. 183–187
Bibliographic reference:
Evtushenko G.S., Petukhov T.D., Sukhanov V.B., Troitskii V.O., Kuryak A.N., Trigub M.V. Sodium vapor active element excited by nanosecond optical pulses. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 183–187 [in Russian].
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6. Razhev A.M., Churkin D.S., Tkachenko R.A. Inductive nitrogen laser with pulse power of 1 MW. P. 188–191
Bibliographic reference:
Razhev A.M., Churkin D.S., Tkachenko R.A. Inductive nitrogen laser with pulse power of 1 MW. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 188–191 [in Russian].
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7. Yudin N.N., Dyomin V.V., Soldatov A.N., Shumeiko A.S., Yudin N.A. On the possibility of generating THz radiation at a difference frequency in a ZnGeP2 single crystal when pumping with strontium vapor laser radiation. P. 192–198
Bibliographic reference:
Yudin N.N., Dyomin V.V., Soldatov A.N., Shumeiko A.S., Yudin N.A. On the possibility of generating THz radiation at a difference frequency in a ZnGeP2 single crystal when pumping with strontium vapor laser radiation. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 192–198 [in Russian].
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8. Trigub M.V., Malakhov D.V., Stepakhin V.D., Evtushenko G.S., Balabanov D.A., Skvotsova N.N. High-speed imaging of plasmachemical synthesis in fast-flowing chain processes initiated by gyrotron radiation. P. 199–204
Bibliographic reference:
Trigub M.V., Malakhov D.V., Stepakhin V.D., Evtushenko G.S., Balabanov D.A., Skvotsova N.N. High-speed imaging of plasmachemical synthesis in fast-flowing chain processes initiated by gyrotron radiation. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 199–204 [in Russian].
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9. Klimkin A.V., Karapuzikov A.A., Kokhanenko G.P., Kuryak A.N., Osipov K.Yu., Ponomarev Yu.N., Zhang Shuo. Use of the long-wave range for remote sensing of atmospheric aerosols. P. 205–208
Bibliographic reference:
Klimkin A.V., Karapuzikov A.A., Kokhanenko G.P., Kuryak A.N., Osipov K.Yu., Ponomarev Yu.N., Zhang Shuo. Use of the long-wave range for remote sensing of atmospheric aerosols. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 205–208 [in Russian].
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10. Borchevkina O.P., Adamson S.O., Andrienko O.S., Golubkov G.V., Gubanova D.P., Dyakov Yu.A., Kazaryan M.A., Karpov I.V., Golubkov M.G. Lidar observation of aerosol dynamics and acoustic-gravity waves. P. 209–214
Bibliographic reference:
Borchevkina O.P., Adamson S.O., Andrienko O.S., Golubkov G.V., Gubanova D.P., Dyakov Yu.A., Kazaryan M.A., Karpov I.V., Golubkov M.G. Lidar observation of aerosol dynamics and acoustic-gravity waves. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 209–214 [in Russian].
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11. Afonasenko A.V., Geints Yu.E., Gritsuta A.N., Klimkin A.V., Latyntsev Sh.V., Ovchinnikov A.V., Osipov K.Yu., Ptashnik I.V., Solodov A.A., Solodov A.M., Yakimov E.N. Measurement and calculation of light pressure on structural materials. P. 215–219
Bibliographic reference:
Afonasenko A.V., Geints Yu.E., Gritsuta A.N., Klimkin A.V., Latyntsev Sh.V., Ovchinnikov A.V., Osipov K.Yu., Ptashnik I.V., Solodov A.A., Solodov A.M., Yakimov E.N. Measurement and calculation of light pressure on structural materials. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 215–219 [in Russian].
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12. Yagnyatinskiу D.A., Fedoseуev V.N. Numerical simulations of the monomorph deformable mirror in ANSYS software. P. 220–226
Bibliographic reference:
Yagnyatinskiу D.A., Fedoseуev V.N. Numerical simulations of the monomorph deformable mirror in ANSYS software. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 220–226 [in Russian].
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13. Sosnin E.A., Kuznetsov V.S., Panarin V.A., Skakun V.S., Tarasenko V.F. Laboratory modeling of the influence of volcanic matter on the formation of transient phenomena near the boundary between the middle and lower atmosphere. P. 227–231
Bibliographic reference:
Sosnin E.A., Kuznetsov V.S., Panarin V.A., Skakun V.S., Tarasenko V.F. Laboratory modeling of the influence of volcanic matter on the formation of transient phenomena near the boundary between the middle and lower atmosphere. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 227–231 [in Russian].
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14. Dyakov Yu.A., Adamson S.O., Golubkov G.V., Nabiev Sh.Sh., Andrienko O.S., Asratyan A.A., Kazaryan S.M., Gubanova D.P., Kazaryan M.A., Golubkov M.G. Changes in the aromaticity and chemical properties of pentalene and its derivatives formed by burning of organic fuel under the UV radiation and ionization. P. 232–238
Bibliographic reference:
Dyakov Yu.A., Adamson S.O., Golubkov G.V., Nabiev Sh.Sh., Andrienko O.S., Asratyan A.A., Kazaryan S.M., Gubanova D.P., Kazaryan M.A., Golubkov M.G. Changes in the aromaticity and chemical properties of pentalene and its derivatives formed by burning of organic fuel under the UV radiation and ionization. // Optika Atmosfery i Okeana. 2020. V. 33. No. 03. P. 232–238 [in Russian].
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