259
Atmospheric Radiation
48. Fokina I. N., Karasik V. E., Orlov V. M., Budak V. P., 2014: Impact of Structure
Geometry on Scattering in Partially-Ordered Media. J.Q.S.R.T., 149, 108–116.
49. Fomin B. A. & V. A. Falaleeva, 2014: The Vertical Structure of Aerosols and
Clouds Derived from Satellites Equipped with High-Resolution Polarization Sensors.
Int. Journ. Rem. Sensing, 35, 15, 5800–5811.
50. Frolkis V. A., A. M. Kokorin, 2014: The Influence of Various Variants of both
Two-Phase Stratospheric Aerosol Particles and their Size Distribution on Optical Param‑
eters and Radiative Forcing. Proceedings of MGO, 571, 88–114 [in Russian].
51. Gavrilov N. M. and Yu. M. Timofeev, 2014: Comparisons of Satellite (GOSAT)
and Ground‑Based Spectroscopic Measurements of CO
2
Content near St. Petersburg.
Izv., Atm. Oceanic Physics, 50, 9, 910–915.
52. Gavrilov N. M., M. V. Makarova, A. V. Poberovskii, and Yu. M. Timofeyev,
2014a: Comparisons of CH4 Ground-Based FTIR Measurements near Saint Petersburg
with GOSAT Observations. Atm. Meas. Tech., 7, 1003–1010.
53. Gavrilov Nikolai M., Maria V. Makarova, Yury M. Timofeev, and Ana‑
toly V. Poberovsky, 2014b: Comparisons of Satellite (GOSAT) and Ground-Based Spec‑
troscopic Measurements of CH
4
Content near Saint Petersburg: Influence of Data Collo‑
cation. Int. Journ. Rem. Sensing, 35, 15, 5628–5636.
54. Gelfan A., Muzylev E., Uspensky A. et al., 2012: Remote Sensing Based Mode‑
ling of Water and Heat Regimes in a Vast Agricultural Region. Remote Sensing — Ap‑
plications. Ed. Boris Escalante- Ramirez. InTech — Open Access Publisher, Rijeka, Cro‑
atia. 2012. Chapter 6, 141–176.
55. Ginzburg A. S., A. A. Vinogradova, and E. I. Fedorova, 2011: Some Features of
Seasonal Variations in the Methane Content in the Atmosphere over Northern Eurasia.
Izv., Atm. Oceanic Physics, 47, 1, 45–58.
56. Golitsyn G. S., Gorchakov G. I., Grechko E. I. et al., 2011: Extreme Carbon Mon‑
oxide Pollution of the Atmospheric Boundary Layer in Moscow Region in the Summer
2010. Dokl. Earth Sci., 441, 2, 1666–1672.
57. Gorbarenko E. V., 2013: Long-Term Variations of Long-Wave Radiation in Mos‑
cow. Rus. Meteorology and Hydrology, 38, 10, 669–676.
58. Gorbarenko E. V., Abakumova G. M. , 2011 : Radiation Balance Variations of Un‑
derlying Surface from the Long-Term Observations of the Meteorological Observatory
of the Moscow State University. Rus. Meteorology and Hydrology, 36, 6, 383–391.
59. Gorbarenko E. V., Shilovtseva O. A., 2013: Solar Power Resources of Moscow.
Int. Sci. J. for Alternative Energy and Ecology, 6, 2, 28–35.
60. Gorchakov G. I., Sviridenkov M. A., Semoutnikova E. G. et at., 2011: Optical
and Microphysical Parameters of the Aerosol in the Smoky Atmosphere of the Moscow
Region in 2010. Dokl. Earth Sci., 437, 2, 513–517.
61. Gorchakov G. I., E. N. Kadygrov, V. E. Kunitsyn et al., 2014a: The Moscow Heat Is‑
land in the Blocking Anticyclone during Summer 2010. Dokl. Earth Sci., 456, Part 2, 736–740.
62. Gorchakov G. I., Sitnov S. A., Sviridenkov M. A. et al., 2014b: Satellite and
Ground-Based Monitoring of Smoke in the Atmosphere during the Summer Wildfires
260
Yu. M. Timofeyev, E. M. Shulgina
in European Russia in 2010 and Siberia in 2012. Int. J. of Remote Sensing, 35, 15,
5698–5721.
63. Gorchakova I. A., Mokhov I. I., 2012: The radiative and thermal effects of smoke
aerosol over the region of Moscow during the summer Fires in 2010. Izv., Atm. Oceanic
Physics, 48, 5, 496–503.
64. Gribanov K. G., V. I. Zakharov, S. A. Beresnev, 2011: Sensing HDO/H
2
O in the
Ural’s Atmosphere Using Ground-Based Measurements of IR Solar Radiation with a
High Spectral Resolution. Atm. Oceanic Opt., 24, 4, 369–372.
65. Hendrick, F., Pommereau, J.-P., Goutail, F. et al., 2011: NDACC/SAOZ UV–Vis‑
ible Total Ozone Measurements: Improved Retrieval and Comparison with Correlative
Ground-Based and Satellite Observations. Atm. Chem. Physics, 11, 12, 5975–5995.
66. Ilyushin Ya.A., Budak V. P., 2011: Narrow-Beam Propagation in Two-Dimen‑
sional Scattering Medium. J. Opt. Soc. Am. A, 28, 2, 76–81.
67. Ilyushin Y. A., Budak V. P., 2011a: Narrow Beams in Scattering Media: The Ad‑
vanced Small-Angle Approximation. J. Opt. Soc. Am. A, 28, 7, 1358–1363.
68. Ilyushin Ya. A., Budak V. P., 2011b: Analysis of the Propagation of the Femto‑
second Laser Pulse in the Scattering Medium. Comp. Phys. Communication, 2011, 182,
940–945.
69. Ilyushin Ya. A., Budak V. P., 2011c: Calculation of Light Fields of Concentrated
Sources in Turbid Media with Strongly Anisotropic Scattering. Opt. Spectroscopy, 111,
6, 853–858.
70. Ionov D. V. and A. V. Poberovskii, 2012: Nitrogen Dioxide in the Air Basin of St.
Petersburg: Remote Measurements and Numerical Simulation. Izv., Atm. Oceanic Phys-
ics, 48, 4, 373–383.
71. Ionov D. V., M. A. Kshevetskaya, Yu. M. Timofeev, and A. V. Poberovskii, 2013:
Stratospheric NO
2
Content according to Data from Ground‑Based Measurements of So‑
lar IR Radiation. Izv., Atm. Oceanic Physics, 49, 5, 519–529.
72. Ivangorodsky, A. F. Nerushev, 2014: Characteristics of the Upper Tropospheric
Jet Fluxes Inferred from the Data of European Geostationary Meteorological Satellites.
Current Problems in Rem. Sens. Earth from Space, 11, 1, 45–53 [in Russian].
73. Ivanov V. N., Zubachev D. S., Korshunov V. A. et al., 2014: Lidar Observations
of Stratospheric Aerosol Traces of Chelyabinsk Meteorite. Atm. Ocean Opt., 27, 2, 117–
122 [in Russian].
74. Ivlev G. A., B. D. Belan, V. M. Dorokhov, 2013: Dynamics of Solar UV-B and
UV-A Radiations in Tomsk during Ozone Anomaly in Spring, 2011. Atm. Oceanic Opt.,
26, 11, 995–1004 [in Russian].
75. Jacquemart D., Gueye F., Lyulin O. M. et al., 2012: Infrared Spectroscopy of CO
2
Isotopologues from 2200 to 7000 cm
‑1
: I — Characterizing Experimental Uncertainties
of Positions and Intensities. J.Q.S.R.T., 113, 11, 961–975.
76. Kabanov D. M., T. R. Kurbangaliev, T. M. Rasskazchikovaet et al., 2011: The In‑
fluence of Synoptic Factors on Variations of Atmospheric Aerosol Optical Depth under
Siberian Conditions. Atm. Oceanic Opt., 24, 6, 643–652.
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