OPTIKA ATMOSFERY I OKEANA JOURNAL
V.E. ZUEV INSTITUTE OF ATMOSPHERIC OPTICS
Content of issue 05, volume 39, 2026
1. Shcherbakov A. P., Naumenko O. V., Bykov A. D. Heuristic methods of artificial intelligence – a new approach to line identification in vibrational-rotational spectra. P. 365–372
Bibliographic reference:
Shcherbakov A. P., Naumenko O. V., Bykov A. D. Heuristic methods of artificial intelligence – a new approach to line identification in vibrational-rotational spectra. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 365–372. DOI: 10.15372/AOO20260501 [in Russian].
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2. Kapitanov V. A., Ponurovskii Ya. Ya. Linearity of the Hartmann–Tran profile parameters for self-broadening of absorption lines in the 3 ← 0 12C16O band. P. 373–381
Bibliographic reference:
Kapitanov V. A., Ponurovskii Ya. Ya. Linearity of the Hartmann–Tran profile parameters for self-broadening of absorption lines in the 3 ← 0 12C16O band. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 373–381. DOI: 10.15372/AOO20260502 [in Russian].
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3. Nosov E. V. Convection in the vicinity of linear extended optical sources. Numerical solutions of the Navier–Stokes equations. I. Horizontal configuration. P. 382–391
Bibliographic reference:
Nosov E. V. Convection in the vicinity of linear extended optical sources. Numerical solutions of the Navier–Stokes equations. I. Horizontal configuration. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 382–391. DOI: 10.15372/AOO20260503 [in Russian].
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4. Timoshenko D. V. Structure of the electric field of the surface air layer in non-stationary turbulence under the influence of a global storm generator. P. 392–398
Bibliographic reference:
Timoshenko D. V. Structure of the electric field of the surface air layer in non-stationary turbulence under the influence of a global storm generator. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 392–398. DOI: 10.15372/AOO20260504 [in Russian].
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5. Tsipilev V. P., Saidazimov I. A., Oleshko V. I., Yakovlev А. N. Relationship of spatial irradiance in scattering medium with a diffuse reflectance coefficient: comparison of the Monte Carlo method with the Kubelka–Munk approximation. P. 399–405
Bibliographic reference:
Tsipilev V. P., Saidazimov I. A., Oleshko V. I., Yakovlev А. N. Relationship of spatial irradiance in scattering medium with a diffuse reflectance coefficient: comparison of the Monte Carlo method with the Kubelka–Munk approximation. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 399–405. DOI: 10.15372/AOO20260505 [in Russian].
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6. Ilin A. A., Maior A. Yu., Tolstonogova Yu. S., Lisitsa V. V. Laser-induced breakdown spectroscopy of liquid-droplet aerosols using nanosecond pulses. P. 406–412
Bibliographic reference:
Ilin A. A., Maior A. Yu., Tolstonogova Yu. S., Lisitsa V. V. Laser-induced breakdown spectroscopy of liquid-droplet aerosols using nanosecond pulses. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 406–412. DOI: 10.15372/AOO20260506 [in Russian].
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7. Bazhenov O. E. Time behavior of nitric acid and its influence on polar stratospheric cloud formation and ozone destruction in the winter-spring stratosphere of the Arctic based on Aura MLS observations. P. 413–421
Bibliographic reference:
Bazhenov O. E. Time behavior of nitric acid and its influence on polar stratospheric cloud formation and ozone destruction in the winter-spring stratosphere of the Arctic based on Aura MLS observations. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 413–421. DOI: 10.15372/AOO20260507 [in Russian].
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8. Mamontov A. E., Fedorova O. V., Gorbunov M. E. Spatial distribution of aerosol in the troposphere according to the DELICAT project. P. 422–429
Bibliographic reference:
Mamontov A. E., Fedorova O. V., Gorbunov M. E. Spatial distribution of aerosol in the troposphere according to the DELICAT project. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 422–429. DOI: 10.15372/AOO20260508 [in Russian].
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9. Oshlakov V. K. Sensing equation modification for spatially spaced non-linear foci. P. 430–435
Bibliographic reference:
Oshlakov V. K. Sensing equation modification for spatially spaced non-linear foci. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 430–435. DOI: 10.15372/AOO20260509 [in Russian].
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10. Artamonova M. S., Iordanskii M. A., Chkhetiani O. G., Lapchenko V. A., Maksimenkov L. O. Temporal variations in the elemental composition and size distribution of atmospheric aerosol in Crimea in spring–summer 2020. P. 436–447
Bibliographic reference:
Artamonova M. S., Iordanskii M. A., Chkhetiani O. G., Lapchenko V. A., Maksimenkov L. O. Temporal variations in the elemental composition and size distribution of atmospheric aerosol in Crimea in spring–summer 2020. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 436–447. DOI: 10.15372/AOO20260510 [in Russian].
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11. Arshinov M. Yu., Arshinova V. G., Belan B. D., Davydov D. K., Kozlov A. V. Temporal variability of CO2 and CH4 concentrations and their δ13C isotopic signatures in the atmosphere of the southern taiga zone of Western Siberia derived from observations at the Fonovaya observatory in 2022–2024.. P. 448–455
Bibliographic reference:
Arshinov M. Yu., Arshinova V. G., Belan B. D., Davydov D. K., Kozlov A. V. Temporal variability of CO2 and CH4 concentrations and their δ13C isotopic signatures in the atmosphere of the southern taiga zone of Western Siberia derived from observations at the Fonovaya observatory in 2022–2024.. // Optika Atmosfery i Okeana. 2026. V. 39. No. 05. P. 448–455. DOI: 10.15372/AOO20260511 [in Russian].
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12. Information. P. 456