Russian national report
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263 Atmospheric Radiation 108. Lukashevskaya A. A., Naumenko O. V., Perrin A. et al., 2013: High Sensitivity Cavity Ring Down Spectroscopy of NO 2 between 7760 and 7917 cm ‑1 . J.Q.S.R.T., 130, 249–259. 109. Lyulin O. M., Perevalov V. I., Morino I. et al., 2011: Measurements of Self-Broad‑ ening and Self-Induced Pressure-Shift Parameters of Methane Spectral Lines in the 5556–6166 cm ‑1 J.Q.S.R.T., 112, 531–539. 110. Lyulin O. M., Campargue A., Mondelain D., Kassi S., 2013: The Absorption Spectrum of Acetylene by CRDS between 7244 and 7918 cm ‑1 . J.Q.S.R.T., 130, 327–334. 111. Lyulin O. M., D. Mondelain, S. Beguier et al., 2014: High-Sensitivity CRDS Ab‑ sorption Spectrum of Acetylene between 5851 and 6341 cm ‑1 . Molecular Physics, 112, 2433–2444. 112. Makarova M. V., A. V. Poberovskii, and S. I. Osipov, 2011a: Time Variations of the Total CO Content in the Atmosphere near St. Petersburg. Izv., Atm. Oceanic Physics, 47, 6, 739–746. 113. Makarova M. V., A. V. Rakitin, D. V. Ionov & A. 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Current Problems in Rem. Sens. Earth from Space, 11, 4, 300–309 [in Russian]. 118. Matvienko G. G., Belan B. D., Panchenko M. V. et al., 2014a: Instrumentation Complex for Comprehensive Study of Atmospheric Parameters. Int. J. Rem. Sens., 35, 15, 5651–5676. 119. Matvienko G. G., Belan B. D., Panchenko M. V. et al., 2014b: Complex Experi‑ ment on the Study of Microphysical, Chemical and Optical Properties of Aerosol Parti‑ cles and Estimation of Atmospheric Aerosol Contribution in the Earth Radiation Budget. Proc. SPIE, 9292, doi: 10.1117/12.2075507. 120. Mikhailenko S., Kassi S., Wang Le, Campargue A., 2011: The Absorption Spec‑ trum of Water in the 1.25 mm Transparency Window (7408–7920 cm ‑1 ). J. Mol. Spec- trosc., 269, 92–103. 121. Mikhailov E. F., V. V. Merkulov, S. S. Vlasenko et al., 2011: Filter‑Based Differ‑ ential Hygroscopicity Analyzer of Aerosol Particles. Izv., Atm. Oceanic Physics, 47, 6, 747–759. 264 Yu. M. Timofeyev, E. M. Shulgina 122. Mikhailov G. A., 2012: Asymptotic Estimates of the Mean Probability of Radia‑ tive Transfer through an Exponentially Correlated Stochastic Medium. Izv., Atm. Oceanic Physics, 48, 6, 618–624. 123. Mikhailov E., Vlasenko S., Rose D., Poeschl U., 2013: Mass-Based Hygro‑ scopicity Parameter Interaction Model and Measurement of Atmospheric Aerosol Water Uptake. Atm. Chem. Physics, 13, 2, 717–740. 124. Nerushev A. F., and E. K. Kramchaninova, 2011: Method for Determining At‑ mospheric Motion Characteristics Using Measurements on Geostationary Meteorolog‑ ical Satellites. Izv., Atm. Oceanic Physics, 47, 9, 1104–1113. 125. Nerushev A. F., Barkhatov A. E., 2012: Determination of Atmospheric Character‑ istics in the Zone of Action of Extra-Tropical Cyclone Xynthia (February 2010) Inferred from Satellite Measurement Data. 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Dokukina et al., 2012a: Multiyear Var‑ iations in Aerosol Condensation Activity in Tomsk. Atm. Oceanic Opt., 25, 4, 251–255. 130. Panchenko M. V., Zhuravleva T. B., Terpugova S. A. et al., 2012b: An empirical model of optical and radiative characteristics of the tropospheric aerosol over West Sibe‑ ria in summer. Atm. Meas. Tech., 5, 1513–1527. 131. Panchenko M. V., Kozlov V. S., Pol’kin V.V. et al., 2012c: Retrieval of Optical Characteristics of the Tropospheric Aerosol in West Siberia on the Basis of Generalized Empirical Model Taking into Account Absorption and Hygroscopic Properties of Parti‑ cles. Atmos. Ocean Opt., 25, 1, 46–54 [in Russian]. 132. Panchenko M. V., Kozlov V. S., Polkin V. V., Terpugova S. A., 2014: Model Es‑ timates of the Spectral Dependences of Single Scattering Albedo in the Troposphere in Different Seasons. Proc. SPIE, 9292, 9292–125. 133. Pankratova N. V., N. F. Elansky, I. B. Belikov et al., 2011: Ozone and Nitric Ox‑ ides in the Surface Air over Northern Eurasia According to Observational Data Obtained in TROICA Experiments. Izv., Atm. Oceanic Physics, 47, 3, 333–338. 134. Pastel M., J.-P. Pommereau, F. Goutail et al., 2013: Comparison of Long Term Series of Total Ozone and NO 2 Column Measurements in the Southern Tropics by SAOZ/ NDACC UV–Vis Spectrometers and Satellites. Atm. Meas. Tech. Discuss., 6, 4851–4893. Yüklə 2,8 Kb. Dostları ilə paylaş:
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