Principal
publications
(last
25 years)
Kostsov, V. S., Kniffka, A., and Ionov, D. V., 2022: Retrieval of the land-sea contrast of cloud liquid water path by applying a physical inversion algorithm to combined zenith and off-zenith ground-based microwave measurements. Atmos. Meas. Tech. Discuss., [preprint], https://doi.org/10.5194/amt-2021-415, in review.
Timofeyev, Y.M., Nerobelov, G.M. & Poberovskii, A.V., 2022: Experimental Estimates of Integral Anthropogenic CO2 Emissions in the City of St. Petersburg. Izv. Atmos. Ocean. Phys., 58, 237–245, https://doi.org/10.1134/S0001433822030100.
Nerobelov, G.; Timofeyev, Y.; Virolainen, Y.; Polyakov, A.; Solomatnikova, A.; Poberovskii, A.; Kirner, O.; Al-Subari, O.; Smyshlyaev, S.; Rozanov, E. , 2022: Measurements and Modelling of Total Ozone Columns near St. Petersburg, Russia. Remote Sens., 14, 3944, https://doi.org/10.3390/rs14163944.
Nerobelov, G.; Al-Subari, O.; Timofeyev, Yu.M.; Virolainen, Y.; Poberovskii, A.V.;Solomatnikova, A.A., 2022: Comparison of Ground-Based Measurement Results of Total Ozone near St. Petersburg. Izv. Atmos. Ocean. Phys., 58, 5, 494–499 , https://doi.org/10.1134/S0001433822050073.
Ionov, D.V., Privalov, V.I., 2022: The Differential Spectroscopy Technique DOAS in the Problem of Determining the Total Ozone Content from Measurements of Ground-Based UV Spectrometer UFOS. Atmos Ocean Opt., 35, 1–7, https://doi.org/10.1134/S1024856022010079.
Nikitenko A.A., Timofeev Yu.M., Virolainen Ya.A., Nerobelov G.M. and Poberovskii A.V., 2022: Comparison of Stratospheric CO2 Measurements by Ground- and Satellite-Based Methods. Atmos Ocean Opt., 35, 4, 341–344. DOI: 10.1134/S1024856022040145.
Kozlov, D.A., Kozlov, I.A., Uspensky, A.B., Rublev A.N., Timofeyev Y.M., Polyakov A.V. & Kolesnikov M.V., 2022: Characterization of the Noise Covariance Matrix of the IKFS-2 Infrared Fourier Transform Spectrometer Measurements. Izv. Atmos. Ocean. Phys., 58, 9, 1160–1172. https://doi.org/10.1134/S0001433822090110.
Nerobelov G.M., Timofeyev Y.M., Poberovskii A.V., Filippov N.N., Imhasin H.H., 2022: Ground-Based Spectroscopic Measurements of the Total Ammonia Content in the Vicinity of St. Petersburg. Izv. Atmos. Ocean. Phys., 58, 6, 560–568. DOI: 10.1134/S0001433822060123.
Makarova, M. V., Alberti, C., Ionov, D. V., Hase, F., Foka, S. C., Blumenstock, T., Warneke, T., Virolainen, Ya. A., Kostsov, V. S., Frey, M., Poberovskii, A. V., Timofeyev, Yu. M., Paramonova, N. N., Volkova, K. A., Zaitsev, N. A., Biryukov, E. Y., Osipov, S. I., Makarov, B. K., Polyakov, A. V., Ivakhov, V. M., Imhasin, H. Kh., and Mikhailov, E. F., 2021: Emission Monitoring Mobile Experiment (EMME): an overview and first results of the St. Petersburg megacity campaign-2019. Atmos. Meas. Tech., 14, 1047–1073. https://doi.org/10.5194/amt-14-1047-2021.
Polyakov A., A. Poberovsky, M. Makarova, Ya. Virolainen, Yu. Timofeyev, A. Nikulina, 2021: Measurements of CFC-11, CFC-12, and HCFC-22 total columns in the atmosphere at the St. Petersburg site in 2009-2019. Atmos. Meas. Tech., 14, 8, 5349–5368, https://doi.org/10.5194/amt-14-5349-2021.
Blumenstock Th., Hase F., Keens A., Czurlok D., Colebatch O., Garcia O., Griffith D.W.T., Grutter M., Hannigan J.W., Heikkinen P., Jeseck P., Jones N., Kivi R., Lutsch E., Makarova M., Imhasin H.K., Mellqvist J., Morino I., Nagahama T., Notholt J., Ortega I., Palm M., Raffalski1 U., Rettinger M., Robinson J., Schneider M., Servais Ch., Smale D., Stremme W., Strong K., Sussmann R., Te Y., and Velazco V.A., 2021: Characterization and potential for reducing optical resonances in Fourier transform infrared spectrometers of the Network for the Detection of Atmospheric Composition Change (NDACC). Atmos. Meas. Tech., 14, 2, 1239–1252. https://doi.org/10.5194/amt-14-1239-2021.
Makarova M.V., V.I. Serdyukov, M.Yu. Arshinov, B.D. Belan, B.A. Voronin, A.V. Nikitin, A.P. Shcherbakov, Yu.V. Gridnev, 2021: The First Complex Experiment on Determining Parameters of the Vertical Distribution of Methane in the Troposphere over Western Siberia from Solar Spectra Recorded with an IFS-125M FTIR Spectrometer and In Situ Aircraft Measurements. Atm. Oceanic Optics, 34, 1, 61–67. DOI: 10.1134/S1024856021010073.
Nerobelov G., Timofeyev Y., Smyshlyaev S., Foka S., Mammarella I., Virolainen Y., 2021: Validation of WRF-Chem Model and CAMS Performance in Estimating Near-Surface Atmospheric CO2 Mixing Ratio in the Area of Saint Petersburg (Russia). Atmosphere, 12, 387. https://doi.org/10.3390/atmos12030387.
Virolainen Ya.A., Polyakov A.V., Timofeyev Yu.M., 2021: Analysis of the Variability of Stratospheric Gases Near St. Petersburg Using Ground-Based Spectroscopic Measurements. Izvestiya, Atmospheric and Oceanic Physics, 57, 2, 148–158. DOI: 10.1134/S0001433821010138.
Timofeyev Yu.M., N.N. Filippov, A.V. Poberovsky, 2021: Analysis of the Information Content and Vertical Resolution of Ground-Based IR Spectroscopy for Determining the Vertical Structure of CO2. Atm. Oceanic Optics, 34, 2, 87–92. DOI: 10.1134/S1024856021020093.
Ionov D.V., M.V. Makarova, F. Hase, S.C. Foka, V.S. Kostsov, C. Alberti, T. Blumenstock, T. Warneke, Ya. A. Virolainen, 2021: The CO2 integral emission by the megacity of St Petersburg as quantified from ground-based FTIR measurements combined with dispersion modelling. Atmos. Chem. Physics, 21, 14, 10939–10963. DOI: 10.5194/acp-21-10939-2021.
Timofeyev Yu.M., G.M. Nerobelov, A.V. Poberovskii, N.N. Filippov, 2021: Determining Both Tropospheric and Stratospheric ÑÎ2 Contents Using a Ground-Based IR Spectroscopic Method. Izvestiya, Atmospheric and Oceanic Physics, 57, 3, 286–296. DOI: 10.1134/S0001433821020110.
Polyakov A., Ya. Virolainen, G. Nerobelov, Yu. Timofeyev, A. Solomatnikova, 2021: Total ozone measurements using IKFS-2 spectrometer aboard MeteorM N2 satellite in 2019–2020. Int. J. Rem. Sens., 42, 22, 8709–8733, https://doi.org/10.1080/01431161.2021.1985741.
Nerobelov G.M., Yu.M. Timofeyev, 2021: Estimates of CO2 Emissions and Uptake by the Water Surface near St. Petersburg Megalopolis. Atm. Oceanic Optics, 34, 5, 422–427, https://doi.org/10.1134/S1024856021050158.
Voronin, B. A., Makarova, M. V., Poberovskii, A. V., Bykov, A. D., Dudnikova, E. A. & Tennyson, J., 2021: The absorption spectrum of short-lived isotopic variant of water, H215O: Tentative detection at the Earth's atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer, 276, 107929. https://doi.org/10.1016/j.jqsrt.2021.107929.
Ionov D.V., A.V. Poberovskii, 2021: Variability of nitrogen oxides in the atmospheric surface layer near Saint Petersburg. Russian Meteorology and Hydrology, 45, 10, 720-726. https://doi.org/10.3103/S1068373920100064.
Zeng Xiang-Yu, Wang Wei, Liu Cheng, Shan Chang-Gong, Xie Yu, Hu Qi-Hou, Sun You-Wen, Polyakov Alexander Viktorovich, 2021: Detection of atmosphere CCl2F2 spatio-temporal variations by ground-based high resolution Fourier transform infrared spectroscopy. Acta Physica Sinica, 70, 20, 200201. doi: 10.7498/aps.70.20210640.
Pazmino, A., Beekmann, M., Goutail, F., Ionov, D., Bazureau, A., Nunes-Pinharanda, M., Hauchecorne, A., and Godin-Beekmann, S., 2021: Impact of the COVID-19 pandemic related to lockdown measures on tropospheric NO2 columns over Ile-de-France. Atmos. Chem. Phys., 21, 18303–18317. doi: 10.5194/acp-21-18303-2021.
Ionov, D. V., Makarova, M. V., Hase, F., Foka, S. C., Kostsov, V. S., Alberti, C., Blumenstock, T., Warneke, T., and Virolainen, Y. A., 2021: The CO2 integral emission by the megacity of St Petersburg as quantified from ground-based FTIR measurements combined with dispersion modelling. Atmos. Chem. Phys., 21, 10939–10963. doi: 10.5194/acp-21-10939-2021.
Kostsov, V. S., Kniffka, A., and Ionov, D. V., 2021: Inter-annual, seasonal and diurnal features of the cloud liquid water path over the land surface and various water bodies in Northern Europe as obtained from the satellite observations by the SEVIRI instrument in 2011–2017. Atmos. Chem. Phys. Discuss., [preprint], https://doi.org/10.5194/acp-2021-387, in review.
Sha M.K., B. Langerock, J.-F.L. Blavier, Th. Blumenstock, T. Borsdorff, M. Buschmann, A. Dehn, M. De Maziere, N.M. Deutscher, D.G. Feist, O.E. Garcia, D.W.T. Griffith, M. Grutter, J.W. Hannigan, F. Hase, P. Heikkinen, Ch. Hermans, L.T. Iraci, P. Jeseck, N. Jones, R. Kivi, N. Kumps, J. Landgraf, A. Lorente, E. Mahieu, M.V. Makarova, J. Mellqvist, J.-M. Metzger, I. Morino, T. Nagahama, J. Notholt, H. Ohyama, I. Ortega, M. Palm, Ch. Petri, D.F. Pollard, M. Rettinger, J. Robinson, S. Roche, C.M. Roehl, A.N. Rohling, C. Rousogenous, M. Schneider, K. Shiomi, D. Smale, W. Stremme, K. Strong, R. Sussmann, Y. Te, O. Uchino, V.A. Velazco, C. Vigouroux, M. Vrekoussis, P. Wang, Th. Warneke, T. Wizenberg, D. Wunch, S. Yamanouchi, Y. Yang, and M. Zhou, 2021: Validation of methane and carbon monoxide from Sentinel-5 Precursor using TCCON and NDACC-IRWG stations. Atmos. Meas. Tech., 14, 9, 6249–6304, https://doi.org/10.5194/amt-14-6249-2021.
Alberti
C., T. Qiansi, F. Hase, M. V. Makarova, K. Gribanov, S. C. Foka, V. Zakharov, Th. Blumenstock, M. Buchwitz, Ch. Diekmann, B. Ert, M. M. Frey, H. Kh. Imhasin, D. V. Ionov, F. Khosrawi, S. I. Osipov, M. Reuter, M. Schneider, T. Warneke, 2021: Investigation of space-borne trace gas products over St. Petersburg and Yekaterinburg, Russia by using COCCON observations. Atmos. Meas. Tech. Discuss., [preprint], https://doi.org/10.5194/acp-2021-387, in review.
Nerobelov G.M., Yu.M. Timofeyev, S. P. Smyshlyaev, Y. A. Virolainen, M. V. Makarova & S. Ch. Foka, 2021: Comparison of CAMS Data on CO2 with Measurements in Peterhof. Atm. Oceanic Optics, 34, 6, 689–694, https://doi.org/10.1134/S102485602106018X.
Timofeyev Yu.M., G.M. Nerobelov, A.V. Polyakov, and Ya.A. Virolainen, 2021: Satellite Monitoring of the Ozonosphere. Russian Meteorology and Hydrology, 46, 12, 849–855, DOI: 10.3103/S1068373921120062.
Timofeev Yu.M., E.M. Shulgina, 2020: Russian Investigations in the Field of Atmospheric Radiation in 2015–2018. Izvestiya, Atmospheric and Oceanic Physics, 56, 1, 1–15. DOI: 10.1134/S0001433820010089.
Polyakov Alexander, Yana Virolainen, Anatoliy Poberovskiy, Maria Makarova & Yuriy Timofeyev, 2020: Atmospheric HCFC-22 total columns near St. Petersburg: stabilization with start of a decrease. International Journal of Remote Sensing, 41, 11, 4365–4371. DOI: 10.1080/01431161.2020.1717668.
Timofeev Yu.M., A.V. Polyakov, Ya.A. Virolainen, M.V. Makarova, D.V. Ionov, A.V. Poberovsky, H.H. Imhasin, 2020: Estimates of Trends of Climatically Important Atmospheric Gases Near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 56, 1, 79–84. DOI: 10.1134/S0001433820010119.
Polyakov A.V., A.V. Poberovsky, Ya.A. Virolainen, M.V. Makarova, 2020: Transparency Spectra Inversion Technique for Evaluating the Atmospheric Content of CCl3F Freon. J Appl Spectrosc, 87, 1, 92–98. https://doi.org/10.1007/s10812-020-00968-6.
Timofeev Yu.M., Ya.A. Virolainen, A.V. Polyakov, 2020: Estimates of Variations in CO2 Radiative Forcing in the Last Century and in the Future. Atm. Oceanic Optics, 33, 2, 206–209. DOI: 10.1134/S1024856020020141.
Timofeev Yu.M., G.M. Nerobelov, Y.A. Virolainen, A.V. Poberovskii, and S.C. Foka, 2020: Estimates of CO2 Anthropogenic Emission from the Megacity St. Petersburg. Doklady Earth Sciences, Part 1, 753–756. DOI: 10.1134/S1028334X20090184
Timofeev Yu.M., A.V. Polyakov, Ya.A. Virolainen, W. Dohler, D. Oertel, D. Spankuch, 2020: First Satellite Measurements of Carbon Dioxide in the Earth’s Atmosphere (From the SI-1 Spectrometer Aboard the Meteor Satellite in 1979). Izvestiya, Atmospheric and Oceanic Physics, 56, 4, 401–404. DOI: 10.1134/S000143382004009X.
Blumenstock, T., Hase, F., Keens, A., Czurlok, D., Colebatch, O., Garcia, O., Griffith, D. W. T., Grutter, M., Hannigan, J. W., Heikkinen, P., Jeseck, P., Jones, N., Kivi, R., Lutsch, E., Makarova, M., Imhasin, H. Kh., Mellqvist, J., Morino, I., Nagahama, T., Notholt, J., Ortega, I., Palm, M., Raffalski, U., Rettinger, M., Robinson, J., Schneider, M., Servais, C., Smale, D., Stremme, W., Strong, K., Sussmann, R., Te, Y., and Velazco, V. A., 2020: Characterisation and potential for reducing optical resonances in FTIR spectrometers of the Network for the Detection of Atmospheric Composition Change (NDACC). Atmos. Meas. Tech. Discuss., https://doi.org/10.5194/amt-2020-316.
Vigouroux Corinne , Bavo Langerock, Carlos Augusto Bauer Aquino, Thomas Blumenstock, Zhibin Cheng, Martine De Maziere, Isabelle De Smedt, Michel Grutter, James W. Hannigan, Nicholas Jones, Rigel Kivi, Diego Loyola, Erik Lutsch, Emmanuel Mahieu, Maria Makarova, Jean-Marc Metzger, Isamu Morino, Isao Murata, Tomoo Nagahama, Justus Notholt, Ivan Ortega, Mathias Palm, Gaia Pinardi, Amelie Rohling, Dan Smale, Wolfgang Stremme, Kim Strong, Ralf Sussmann, Yao Te, Michel van Roozendael, Pucai Wang, and Holger Winkler, 2020: TROPOMI–Sentinel-5 Precursor formaldehyde validation using an extensive network of ground-based Fourier-transform infrared stations. Atmos. Meas. Tech., 13, 7, 3751–3767. https://doi.org/10.5194/amt-13-3751-2020.
Lutsch, E., Strong, K., Jones, D. B. A., Blumenstock, T., Conway, S., Fisher, J. A., Hannigan, J. W., Hase, F., Kasai, Y., Mahieu, E., Makarova, M., Morino, I., Nagahama, T., Notholt, J., Ortega, I., Palm, M., Poberovskii, A. V., Sussmann, R., and Warneke, T., 2020: Detection and attribution of wildfire pollution in the Arctic and northern midlatitudes using a network of Fourier-transform infrared spectrometers and GEOS-Chem. Atmos. Chem. Phys., 20, 21, 12813–12851. https://doi.org/10.5194/acp-20-12813-2020.
Kostsov V.S., Ionov D.V., Kniffka A., 2020: Detection of the cloud liquid water path horizontal inhomogeneity in a coastline area by means of ground-based microwave observations: feasibility study. Atmos. Meas. Tech., 13, 8, 4565–4587. https://doi.org/10.5194/amt-13-4565-2020.
Volkova K.A., S.S. Anikin, E.F. Mihailov, D.V. Ionov, S.S. Vlasenko, T.I. Ryshkevich, 2020: Seasonal and Daily Variability of Aerosol Particle Concentrations near St. Petersburg. Atmos Ocean Opt., 33, 8, 524–530. https://doi.org/10.1134/S102485602005019X.
Virolainen, Y.A., Nikitenko, A.A. & Timofeyev, Y.M., 2020: Intercalibration of Satellite and Ground-Based Measurements of CO2 Content at the NDACC St. Petersburg Station. J. Appl. Spectrosc, 87, 5, 888–892. DOI: 10.1007/s10812-020-01085-0.
Polyakov, A., Poberovsky, A., Makarova, M., Virolainen, Y., and Timofeyev, Y., 2020: Measurements of CFC-11, CFC-12, and HCFC-22 total columns in the atmosphere at the St. Petersburg site in 2009–2019. Atmos. Meas. Tech. Discuss., https://doi.org/10.5194/amt-2020-348, in review.
Biryukov E.Yu., V.S. Kostsov, 2020: Application of the Regression Algorithm to the Problem of Studying Horizontal Inhomogeneity of the Cloud Liquid Water Path by Ground-Based Microwave Measurements in the Angular Scanning Mode. Atm. Oceanic Optics, 33, 6, 602–609. DOI: https://doi.org/10.1134/S102485602006007X.
Nikitenko A.A., Yu.M. Timofeev, I.A. Berezin, A.V. Poberovskii, Ya.A. Virolainen, A.V. Polyakov, 2020: The Analysis of OCO-2 Satellite Measurements of CO2 in the Vicinity of Russian Cities. Atm. Oceanic Optics, 33, 6, 650–656. DOI: https://doi.org/10.1134/S1024856020060111.
Timofeev Yu.M., I.A. Berezin, Ya.A. Virolainen, A.V. Poberovskii, M.V. Makarova, A.V. Polyakov, 2020: Estimates of Anthropogenic CO2 Emissions for Moscow and St. Petersburg Based on OCO-2 Satellite Measurements. Atm. Oceanic Optics, 33, 6, 656–660. DOI: https://doi.org/10.1134/S1024856020060238.
Chesnokova, T. Y., Makarova, M. V., Chentsov, A. V., Kostsov, V. S., Poberovskii, A. V., Zakharov, V. I. & Rokotyan, N. V., 2020: Estimation of the impact of differences in the CH4 absorption line parameters on the accuracy of methane atmospheric total column retrievals from ground-based FTIR spectra. Journal of Quantitative Spectroscopy and Radiative Transfer, 254, 107187. https://doi.org/10.1016/j.jqsrt.2020.107187.
Timofeyev Yu.M., I.A. Berezin, Ya.A. Virolainen, M.V. Makarova, A.V. Polyakov, A.V. Poberovsky, N.N. Filippov, S.Ch. Foka, 2019: Spatial–Temporal CO2 Variations near St. Petersburg Based on Satellite and Ground-Based Measurements. Izvestiya, Atmospheric and Oceanic Physics, 55, 1, 59–64. DOI:10.1134/S0001433819010109.
Polyakov A.V., Ya.A. Virolainen, M.V. Makarova, 2019: Technique for Inverting Transmission Spectra to Measure Freon Concentration. Journal of Applied Spectroscopy, 85, 6, 1085–1093. DOI:10.1007/S10812-019-00763y.
Chubarova N.E., Yu.M. Timofeev, Ya.A. Virolainen & A.V. Polyakov, 2019: Estimates of UV Indices During the Periods of Reduced Ozone Content over Siberia in Winter–Spring 2016 . Atmospheric and Oceanic Optics, 32, 2, 177–179. DOI: 10.1134/S1024856019020040.
Polyakov, A.V., Virolainen, Y.A. & Makarova, M.V., 2019: Method for Inversion of the Transparency Spectra for Evaluating the Content of CCl2F2 in the Atmosphere. Journal of Applied Spectroscopy, 86, 3, 449–456. DOI:https://doi.org/10.1007/s10812-019-00840-2.
Timofeyev Yu.M., I. A. Berezin, Ya. A. Virolainen, M. V. Makarova, A. A. Nikitenko, 2019: Analysis of mesoscale variability of carbon dioxide in the vicinity of Moscow magacity based on satellite data. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 16, 4, 263–270. DOI: 10.21046/2070-7401-2019-16-4-263-270.
Timofeyev Yu.M., A.B. Uspensky, F. S. Zavelevich, A. V. Polyakov, Y. A. Virolainen, A. N. Rublev, A. V. Kukharsky, J. V. Kiseleva, D. A. Kozlov, I.A. Kozlov, A.G. Nikulin, V. P. Pyatkin, E. V. Rusin, 2019: Hyperspectral infrared atmospheric sounder IKFS-2 on “Meteor-M” No. 2 – Four years in orbit. Journal of Quantitative Spectroscopy and Radiative Transfer, 238, 106579, https://doi.org/10.1016/j.jqsrt.2019.106579.
Kostsov V.S. , Kniffka A., Stenge M., Ionov D.V. , 2019: Cross-comparison of cloud liquid water path derived from observations by two space-borne and one ground-based instrument in Northen Europe. Atmospheric Measurement Techniques., 12, 5927–5946, https://doi.org/10.5194/amt-12-5927-2019.
Chesnokova T.Yu., Makarova M.V., Chentsov A.V., Voronina Yu.V., Zakharov V.I., Rokotyan N.V. and Langerock B., 2019: Retrieval of Carbon Monoxide Total Column in the Atmosphere from High Resolution Atmospheric Spectra. Atmospheric and Oceanic Optics, 32, 4, 378–386.
Lutsch, E., Strong, K., Jones, D. B. A., Blumenstock, T., Conway, S., Fisher, J. A., Hannigan, J. W., Hase, F., Kasai, Y., Mahieu, E., Makarova, M., Morino, I., Nagahama, T., Notholt, J., Ortega, I., Palm, M., Poberovskii, A. V., Sussmann, R., and Warneke, T., 2019: Detection and Attribution of Wildfire Pollution in the Arctic and Northern Mid-latitudes using a Network of FTIR Spectrometers and GEOS-Chem. Atmos. Chem. Phys. Discuss., https://doi.org/10.5194/acp-2019-881.
Polyakov A.V., Y.M. Timofeyev, Y.A. Virolainen, D.A. Kozlov , 2019: Atmospheric Ozone Monitoring with Russian Spectrometer IKFS-2. Journal of Applied Spectroscopy, 86, 4, 650-654, doi: 10.1007/s10812-019-00873-7.
Biryukov E.Yu. and V.S. Kostsov , 2019: Using Linear Regression Relations Derived from Model and Experimental Data to Determine the Water Content of Clouds from Ground-Based Microwave Measurements. Atmospheric and Oceanic Optics, 32, 5, 569–577. DOI: 10.1134/S1024856019050051.
Vlasenko S.S., Volkova K.A., Ionov D.V., Ryshkevich T.I., O.A.Ivanova, Mikhailov E.F., 2019: Variation of Carboneceous Atmospheric Aerosol Near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 55, 1, 619–627.DOI: 10.1134/S0001433819060161.
Timofeyev Yu.M., A.V. Polyakov, D.A. Kozlov, F.S. Zavelevich, Yu.M. Golovin, W. Dohler, D. Oertel, and D. Spankuch, 2019: Comparison between the Spectra of Outgoing Infrared Radiation for Different Years. Izvestiya, Atmospheric and Oceanic Physics, 55, 9, 956–962. DOI:10.1134/S0001433819090524.
Kostsov V.S., D.V. Ionov, E.Yu. Biryukov, N.A. Zaitsev, 2018: Cross-validation of two liquid water path retrieval algorithms applied to ground based microwave radiation measurements by RPG HATPRO instrument types. International Journal of Remote Sensing, 39, 5, 1321–1342. DOI:10.1080/01431161.2017.1404163.
Shved G.M., Ya.A. Virolainen, Yu.M. Timofeyev, S.I. Ermolenko, S.P. Smyshlyaev, M.A. Motsakov, and O. Kirner, 2018: Ozone Temporal Variability in the Subarctic Region: Comparison of Satellite Measurements with Numerical Simulations. Izvestiya, Atmospheric and Oceanic Physics, 54, 1, 32–38. DOI: 10.1134/S0001433817060111.
Vigouroux, C., Bauer Aquino, C. A., Bauwens, M., Becker, C., Blumenstock, T., De Maziere, M., Garcia, O., Grutter, M., Guarin, C., Hannigan, J., Hase, F., Jones, N., Kivi, R., Koshelev, D., Langerock, B., Lutsch, E., Makarova, M., Metzger, J.-M., Muller, J.-F., Notholt, J., Ortega, I., Palm, M., Paton-Walsh, C., Poberovskii, A., Rettinger, M., Robinson, J., Smale, D., Stavrakou, T., Stremme, W., Strong, K., Sussmann, R., Te, Y., and Toon, G. 2018: NDACC harmonized formaldehyde time-series from 21 FTIR stations covering a wide range of column abundances. Atmos. Meas. Tech., 11, 5049–5073, https://doi.org/10.5194/amt-11-5049-2018.
Kozlov D.A., Yu.M. Timofeev, A.V. Polyakov, I.A. Kozlov, W. Doehler, D. Oertel, D. Spaenkuch, 2018: Recalculation of outgoing atmospheric spectra measured by infrared
Fourier transform spectrometers with different spectral resolution. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 15, 1, 52–60. DOI:
10.21046/2070-7401-2018-15-1-52-60.
Virolainen Ya.A., Yu.M. Timofeev, I.A. Berezin, S.P. Smyshlyaev,
M.A. Motsakov, and O. Kirner, 2018: Validation of Atmospheric Numerical Models Based
on Satellite Measurements of Ozone Columns. Russian Meteorology and Hydrology, 3, 161–167. DOI: 10.3103/S1068373918030044.
Wang P., N. F. Elansky, Yu. M. Timofeev, G. Wang, G. S. Golitsyn, M. V. Makarova, V. S. Rakitin, Yu. Shtabkin, A. I. Skorokhod, E. I. Grechko, E.V. Fokeeva, A. N. Safronov, L. Ran, T. Wang, 2018: Long-Term Trends of Carbon Monoxide Total Columnar Amount in Urban Areas and Background Regions: Ground- and Satellite-based Spectroscopic Measurements. Adv. Atmos. Sci., 35, 7, 785–795. DOI: 10.1007/s00376-017-6327-8.
Timofeyev, Y. M., Smyshlyaev, S. P., Virolainen, Y. A., Garkusha, A. S., Polyakov, A. V., Motsakov, M. A., and Kirner, O., 2018: Case study of ozone anomalies over northern Russia in the 2015/2016 winter: Measurements and numerical modeling. Ann. Geophys., 36, 6, 1495–1505, https://doi.org/10.5194/angeo-36-1495-2018.
Kostsov V. S., Kniffka A., Ionov D. V., 2018: Cloud liquid water path in the sub-Arctic region of Europe as derived from ground-based and space-borne remote observations. Atmos. Meas. Tech., 11, 5439-5460.
Dobrolenskiy Yury, Ilya Dziuban, Yuriy Ivanov, Ivan Syniavskyi, Dmitry Ionov, Anatoly Poberovsky, Oleg Korablev, Anna Fedorova, Nikita Vyazovetskiy, 2018: Optical design of imaging spectrometer for atmosphere monitoring from near-Earth orbit. Proc. SPIE, 10690, 1069026. DOI: 10.1117/12.2312021.
Timofeyev Yu.M., A.V. Polyakov, W. Dohler, D. Spankuch, D. Oertel, 2018: Analysis of spectra measured by SI-1 device. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 15, 3, 236–242. DOI: 10.21046/2070-7401-2018-15-3-236-242.
Makarova M.V., D.K. Arabadzhyan, S.Ch. Foka, N. Paramonova, A. Poberovskii, Timofeyev Yu.M., N. V. Pankratova, V. S. Rakitin, 2018: Estimation of Nocturnal Area Fluxes of Carbon Cycle Gases in Saint Petersburg Suburbs. Russian Meteorology and Hydrology, 43, 7, 449–455. DOI: 10.21046/2070-7401-2018-15-3-236-242.
Rakitin V.S., Elansky N.F., Wang P., Wang G., Pankratova N.V., Shtabkin Yu.A., Skorokhod A.I., Safronov A.N., Makarova M.V., Grechko E.I. , 2018: Changes in trends of atmospheric composition over urban and background regions of Eurasia: estimates based on spectroscopic observations. Geography, Environment, Sustainability, 11, 2, 84–96.
Polyakov A.V., Yu. M. Timofeev, Ya.A. Virolainen, M. V. Makarova, A.V. Poberovskii, H.K. Imhasin, 2018: Ground-Based Measurements of the Total Column of Freons
in the Atmosphere near St. Petersburg (2009–2017). Izvestiya, Atmospheric and Oceanic Physics., 54, 5, 487–494. DOI: 10.1134/S0001433818050109.
Ionov D., A. Poberovskii, 2018: Observations of urban NOx plume dispersion using the mobile and satellite DOAS measurements around the megacity of St.Petersburg (Russia). International Journal of Remote Sensing,
doi: DOI: 10.1080/01431161.2018.1519274.
Cherepova M.V., S.P. Smyshlyaev, M.V. Makarova, Yu.M. Timofeyev,
A.V. Poberovskiy, and G.M. Shved, 2018: A Study of the Column Methane Short-Term Variability
in the Atmosphere on a Regional Scale. Izvestiya, Atmospheric and Oceanic Physics, 54, 5, 558–569. DOI: 10.1134/S0001433818060038.
Virolainen Ya.A., 2018: Methodical Aspects of the Determination of Carbon Dioxide in Atmosphere Using FTIR Spectroscopy. Journal of Applied Spectroscopy, 85, 3, 462–469, https://doi.org/10.1007/s10812-018-0673-x.
Polyakov A.V., Yu.M. Timofeyev, A.B. Uspensky, A.V. Kukharsky, 2018: The Satellite Atmospheric Sounder IRFS-2: 2. Validation of the Temperature Sounding of the Atmosphere. Izvestiya, Atmospheric and Oceanic Physics, 54, 9, 1340–1347. DOI: 10.1134/S0001433818090293.
Garkusha A.S., A.V. Polyakov, Yu.M. Timofeev, Ya.A. Virolainen, A.V. Kukharsky, 2018: TDetermination of the Total Ozone Content in Cloudy Conditions based on Data from the IKFS-2 Spectrometer Onboard the Meteor-M no. 2 Satellite. Izvestiya, Atmospheric and Oceanic Physics, 54, 9, 1230–1234. DOI: 10.1134/S0001433818090141.
Dobrolenskiy Y.S., D.V.Ionov, O.I. Korablev, A.A. Fedorova, E.A. Zherebtsov, A.E. Shatalov, A.V. Poberovskii, 2018: Ground-Based Field Measurements and Calibrations of a New Satellite Spectrometer for Monitoring the Earth’s Ozone Layer. Izvestiya, Atmospheric and Oceanic Physics, 54, 9, 1399–1407. DOI: 10.1134/S0001433818090128.
Volkova, K. A., Poberovsky, A. V., Timofeev, Y. M., Ionov, D. V., Holben, B. N., Smirnov, A. & Slutsker, I., 2018: Aerosol Optical Characteristics Retrieved from CIMEL Sun Photometer Measurements (AERONET) near St. Petersburg. Atmospheric and Oceanic Optics
, 31, 6, 635–641. DOI: 10.1134/S1024856018060180.
Berezin I.A., Yu.M. Timofeyev, Ya.A. Virolainen , I.S. Frantsuzova, K.A. Volkova, A.V. Poberovsky, B.N. Holben, A. Smirnov, and I. Slutsker, 2017: Error Analysis of Integrated Water Vapor Measured by ÑIMEL Photometer. Izvestiya, Atmospheric and Oceanic Physics, 53, 1, 58–64. DOI: 10.1134/S0001433817010030.
Virolainen, Y. A., Timofeyev, Y. M., Kostsov, V. S., Ionov, D. V., Kalinnikov, V. V., Makarova, M. V., Poberovsky, A. V., Zaitsev, N. A., Imhasin, H. H., Polyakov, A. V., Schneider, M., Hase, F., Barthlott, S., and Blumenstock, T., 2017: Quality assessment of integrated water vapour measurements at St. Petersburg site, Russia: FTIR vs. MW and GPS techniques. Atmos. Meas. Tech., 10, 4521–4536, https://doi.org/10.5194/amt-10-4521-2017.
Timofeyev Yu.M., Ya.A. Virolainen, S.P. Smyshlyaev, and M.A. Motsakov, 2017: Ozone over St. Petersburg: Comparison of Experimental Data and Numerical Simulation. Atmospheric and Oceanic Optics, 30, 3, 263–268. DOI:10.1134/S1024856017030149.
Smyshlyaev S.P., Ya.A. Virolainen, M.A. Motsakov, Yu.M. Timofeyev, A.V. Poberovskii, A.V. Polyakov, 2017: Interannual and seasonal variations in ozone in different atmospheric layers over St. Petersburg based on observational data and numerical modeling Izvestiya, Atmospheric and Oceanic Physics, 53, 3, 301–315. DOI: 10.1134/S0001433817030148.
Virolainen Ya.A., Yu.M. Timofeyev, A.V. Poberovskii, A.V. Polyakov, and A.M. Shalamyanskii, 2017: Empirical Assessment of Errors in Total Ozone Measurements with Different Instruments and Methods. Atmospheric and Oceanic Optics, 30, 4, 382–388. DOI: 10.1134/S1024856017040133.
Asmus V.V., Yu.M. Timofeyev, A.V. Polyakov, A.B. Uspensky, Yu.M. Golovin, F.S. Zavelevich, D.A. Kozlov, A.N. Rublev, A.V. Kukharsky, V.P. Pyatkin & E.V. Rusin, 2017: Atmospheric temperature sounding with the Fourier spectrometer. Izvestiya, Atmospheric and Oceanic Physics, 53, 4, 428–432. DOI: 10.1134/S0001433817040028.
Garkusha A.S., A.V. Polyakov, Yu.M. Timofeev & Ya.A. Virolainen, 2017: Determination of the total ozone content from data of satellite IR Fourier-spectrometer. Izvestiya, Atmospheric and Oceanic Physics, 53, 4, 493–501. DOI: 10.1134/S0001433817040041. Ionov D.V., A.V. Poberovskii, 2017: Integral Emission of Nitrogen Oxides from the Territory of St. Petersburg Based on the Data of Mobile Measurements and Numerical Simulation Results. Izvestiya, Atmospheric and Oceanic Physics, 53, 2, 204–212. DOI: 10.1134/S0001433817020049.
Ionov D.V., A.V. Poberovskii, V.V. Ionov, 2017: Spectroscopic remote sensing of NO2 levels in urban air. J. Appl. Spectrosc., 84, 1, 109–113. DOI: 0.1007/s10812-0.17-0435-1.
Ionov D.V., V.V. Kalinnikov, Yu.M. Timofeyev, N.A. Zaitsev, Y.A. Virolainen, V.S. Kostov, A.V. Poberovskii, 2017: Comparison of Radiophysical and Optical Infrared Ground-Based Methods for Measuring Integrated Content of Atmospheric Water Vapor in Atmosphere. Radiophys. Quantum El., 60, 4, 300–308. DOI: 10.1007/s11141-017-9800-4.
Virolainen Ya.A., Yu.M. Timofeyev, S.P. Smyshlyaev, M.A. Motsakov, and O. Kirner, 2017: Study of ozone layer variability near St. Petersburg on the basis of SBUV satellite measurements and numerical simulation (2000-2014). Izvestiya, Atmospheric and Oceanic Physics, 53, 9, 911-917. DOI: 10.1134/S0001433817090328.
Garkusha A.S., A.V. Polyakov, and Yu.M. Timofeyev, 2017: Analysis of capabilities for satellite monitoring of atmospheric gaseous composition using IRFS-2 instrument. Izvestiya, Atmospheric and Oceanic Physics, 53, 9, 1016–1018. DOI: 10.1134/S0001433817090377.
Polyakov A.V., Yu.M. Timofeyev, Ya.A. Virolainen, A.V. Uspensky, F.S. Zavelevich, Yu.M. Golovin, D.A. Kozlov, A.N. Rublev, and A.V. Kukharsky, 2017: Satellite atmospheric sounder IRFS-2. 1. Analysis of outgoing radiation spectra measurements. Izvestiya, Atmospheric and Oceanic Physics, 53, 9, 1185–1191. DOI: 10.1134/S0001433817090249.
Rakitin V.S., N.F. Elansky, N.V. Pankratova, A.I. Skorokhod, A.V. Dzhola, Yu.A. Shtabkin, P. Wang, G. Wang, A.V. Vasilieva, M.V. Makarova & E.I. Grechko, 2017: Study of trends of total CO and CH4 contents over Eurasia through analysis of ground-based and satellite spectroscopic measurements. Atmospheric and Oceanic Optics, 30, 6, 517–526.
Virolainen Ya.A., Yu.M. Timofeyev, A.V. Polyakov, D.V. Ionov, O. Kirner, A.V. Poberovskii, and Kh. Imkhasin, 2016: Comparing Data Obtained from Ground-Based Measurements of the Total Contents of O3, HNO3,HCl, and NO2 and from Their Numerical Simulation. Izvestiya, Atmospheric and Oceanic Physics, 52, 1, 57–65, DOI: 10.1134/S0001433815060146.
Timofeyev Yury, Yana Virolainen, Maria Makarova, Anatoly Poberovsky, Alexander Polyakov, Dmitry Ionov, Sergey Osipov, Hamud Imhasin, 2016: Ground-based spectroscopic measurements of atmospheric gas composition near Saint Petersburg (Russia) . J. Mol.Spectr., 323, May 2016, 2–14. DOI: 10.1016/j.jms.2015.12.007.
Kostsov V.S. Yu.M. Timofeyev, N.A. Zaitsev, A.V. Poberovsky, S.I. Osipov, 2016: Application of the information approach to the analysis of two-year microwave observations of the atmosphere by the RPG-HATPRO radiometer at St. Petersburg University. Int. J. Rem. Sens., 37, 14, 3346–3364, doi:10.1080/01431161.2016.1199060.
Lappalainen, H. K., Kerminen, V.-M., Petaja et al., 2016: Pan-Eurasian Experiment (PEEX): Towards holistic understanding of the feedbacks and interactions in the land–atmosphere–ocean–society continuum in the Northern Eurasian region. Atmos. Chem. Phys., 16, 22, 14421–14461, doi:10.5194/acp-2016-186.
Berezin I. A., Ya. A. Virolainen, Yu. M. Timofeyev, and A. V. Poberovskii, 2016: The Comparison of IR and MW Ground-Based Measurements of Total Precipitable Water. Izvestiya, Atmospheric and Oceanic Physics, 52, 3, 253–256. DOI: 10.1134/S0001433816030026.
Berezin I. A., Yu. M. Timofeyev, Ya. A. Virolainen, and K. A. Volkova, 2016: Comparison of Ground-Based Microwave Measurements of Precipitable Water Vapor with Radiosounding Data. Atmospheric and Oceanic Optics, 29, 3, 274–281. DOI: 10.1134/S1024856016030040.
Berezin I.A., Yu.M. Timofeyev, Ya.A. Virolainen, A.V. Polyakov, N.A. Zaitsev, 2016: The influence of spatial matching on the results of the comparison of integrated water vapor ground-based and satellite measurements. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 13, 4, 149–156, doi:10.21046/2070-7401-2016-13-4-149-156.
Yana Virolainen, Yury Timofeyev, Ivan Berezin, Anatoly Poberovsky, Alexander Polyakov, Nikita Zaitsev, and Hamud Imhasin, 2016: Atmospheric integrated water vapour measured by IR and MW techniques at the Peterhof site (Saint Petersburg, Russia). International Journal of Remote Sensing, 37, 16, 3771–3785.
Timofeyev Yu.M., E.M. Shulgina, 2016: Russian Investigations in the Field of Atmospheric Radiation in 2011–2014. Izvestiya, Atmospheric and Oceanic Physics, 52, 5, 467–482. DOI: 10.1134/S0001433816050121.
Timofeyev Yu.M., A.V. Polyakov, A.V. Poberovsky, 2016: HCl content has ceased to increase in the atmosphere of the Northern Hemisphere. Dokl. Earth Sc., 470,1, 994–996. DOI: 10.1134/S1028334X1609021X.
Makarova M.V., A. V. Poberovskii, F. Hase,
Yu. M. Timofeyev, and Kh. Kh. Imhasin, 2016: Determination of the characteristics of ground-based
IR spectral instrumentation for environmental
monitoring of the atmosphere. J. Appl. Spectroscopy, 83, 3, 429–436. DOI: 10.1007/s10812-016-0306-1.
Bochkovsky D.A., Virolainen Ya.A., Kulikov Yu.Yu., Marichev V.N., Poberovsky A.V., Ryskin V.G., Timofeyev Yu.M., 2016: Ground-Based Microwave Monitoring of Middle-Atmosphere Ozone over Peterhof and Tomsk during Stratospheric Warming in the Winter of 2013-2014. Radiophysics and Quantum Electronics, 59, 4,
270–277, doi: 10.1007/s11141-016-9702-x.
Timofeyev Yu.M., 2016: Study of atmosphere by a transparency method. SPb: ACTA. 367 pp. (in Russian).
Polyakov A.V., Timofeev Yu.M., Poberovsky A.V., Virolainen Ya.A., 2015: Consideration of High Surface Concentrations of Hydrochloric Acid Vapors in Ground-Based Spectroscopic Measurements. Atmospheric and Oceanic Optics, 28, 03, 240–244.
Virolainen Ya. A., Yu. M. Timofeyev, A. V. Poberovskii, O. Kirner, and M. Hoepfner, 2015: Chlorine Nitrate in the Atmosphere over St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 51, 1, 49–56, DOI: 10.1134/S0001433815010119.
Virolainen Ya.A., Yu.M. Timofeyev, A.V. Poberovskii, M. Eremenko, and G. Dufour, 2015: Evaluation of Ozone Content in Different Atmospheric Layers using Ground-Based Fourier Transform Spectrometry. Izvestiya, Atmospheric and Oceanic Physics, 51, 2, 167–176, DOI: 10.1134/S0001433815020127.
Semenov A.O. Ya.A. Virolainen, Yu.M. Timofeyev, and A.V. Poberovskii, 2015: Comparison of Ground-Based FTIR and Radio Sounding
Measurements of Water Vapor Total Content. Atmospheric and Oceanic Optics, 28, 02, 121–125.
Kostsov V.S., 2015: Retrieving Cloudy Atmosphere Parameters from RPG-HATPRO Radiometer Data. Izvestiya, Atmospheric and Oceanic Physics, 51, 2, 156–166, DOI: 10.1134/S0001433815020085.
Kostsov Vladimir, 2015: General approach to the formulation and solution of the multi-parameter inverse problems of atmospheric remote sensing with measurements and constraints of different types. International Journal of Remote Sensing, 36, 11, 2973–3004. DOI: 10.1080/01431161.2015.1054961.
Makarova M.V., O. Kirner, Yu.M. Timofeev, A.V. Poberovskii, Kh.Kh. Imkhasin, S.I. Osipov, and B.K. Makarov, 2015: Analysis of methane total column variations in the atmosphere near St. Petersburg using
ground-based measurements and simulations. Izvestiya, Atmospheric and Oceanic Physics, 51, 2, 177–185, DOI: 10.1134/S0001433815010089.
Makarova M.V., Kirner O., Timofeev Y.M., Poberovskii A.V., Imkhasin K.K., Osipov S.I., Makarov B.K., 2015: Annual cycle and long-term trend of the methane total column in the atmosphere over the St. Petersburg region. Izvestiya, Atmospheric and Oceanic Physics, 51, 4, 431–438, DOI: 10.1134/S0001433815040088.
Mikhailov E. F., S. Yu. Mironova, M. V. Makarova, S. S. Vlasenko, T. I. Ryshkevich, A. V. Panov, M. O. Andreae, 2015: Studying seasonal variations in carbonaceous aerosol particles in the atmosphere over central Siberia. Izvestiya, Atmospheric and Oceanic Physics, 51, 4, 423—430.
Ionov D., A. Poberovskii, 2015: Quantification of NOx emission from St.Petersburg (Russia) using mobile DOAS measurements around entire
city. Int. J. Remote Sensing, 36, 9, 2486–2502.
Dobrolenskiy Y.S., D.V. Ionov, O.I. Korablev, A.A. Fedorova, E.A. Zherebtsov, A.E. Shatalov, S.N. Mantsevich, D.A. Belyaev, N.A. Vyazovetskiy, P.P. Moiseev, K.N. Tchikov, V.M. Krasavtsev, A.V. Savushkin, D.M. Rumyantsev, I.V. Kananykhin, A.I. Viktorov, A.V. Kozyura, S.A. Moryaki, A.V. Poberovskii, 2015: Development of a space borne spectrometer to monitor atmospheric ozone. Applied Optics, 54, 11, 3315-3332.
Ionov D. V., Yu. M. Timofeyev, and A. V. Poberovskii, 2015: Spectroscopic Measurements of O3 and NO2 Atmospheric Content: Correction of Ground-Based Method and Comparison with Satellite Data. Atmospheric and Oceanic Optics, 28, 6, 526–532.
Frantsuzova I.S., A.V. Poberovsky, Yu.M. Timofeyev, Kh.Kh. Imhasin, 2015: The use of Fourier spectroscopy with high resolusion for studying gaseous mixtures and atmospheric air probe. Vestnik SPbSU, ser. 4, 2 (60), issue 1, 21–26 (in Russian).
Arabadjan D.K. , N.N. Paramonova, M.V. Makarova, A.V. Poberovskii, 2015: The analysis of temporal variability of the methane concentration in the atmosphere from data of ground-based measurements. Vestnik SPbSU, ser. 4, 2 (60), issue 3, 204–215 (in Russian).
Semenov A.O., Virolainen Ya.A., Timofeyev Yu.M., Poberovsky A.V., 2015: Comparison of ground-based FTIR and radio sounding measurements of water vapor total content. Atm. Oceanic Optics, 28, 2, 121–125.
Polyakov A.V., Yu.M. Timofeev, Ya.A. Virolainen, 2014: Using artificial neural networks in the temperature and humidity sounding of the atmosphere. Izvestiya, Atmospheric and Oceanic Physics, 50, 3, 330–336, DOI: 10.1134/S0001433814030104, http://link.springer.com/article/10.1134/S0001433814030104
Gavrilov N.M., M.V. Makarova, A.V. Poberovskii, and Yu.M. Timofeyev, 2014: Comparisons of CH4 ground-based FTIR measurements near Saint-Petersburg with GOSAT observations. Atmos. Meas. Techn., 7, 1003-1010, doi: 10.5194/amt-7-1003-2014
Zaitsev N. A., Yu. M. Timofeyev, and V. S. Kostsov, 2014: Comparison of Radio Sounding and Ground-Based Remote Measurements of Temperature Profiles in the Troposphere. Atmospheric and Oceanic Optics, 27, 5, 386–392.
Nikolai M. Gavrilov, Maria V. Makarova, Yury M. Timofeev, and Anatoly V. Poberovsky, 2014: Comparisons of satellite (GOSAT) and ground-based spectroscopic measurements of CH4 content near Saint Petersburg: influence of data collocation. Int. Journ. Rem. Sensing, 35, 15, 5628–5636.
Makarova M.V., V.I. Serdyukov, M.Yu. Arshinov, B.A. Voronin, B.D. Belan, L.N. Sinitsa, E.R. Polovtseva, S.S. Vasilchenko, and D.M. Kabanov, 2014: First results of ground-based Fourier Transform Infrared measurements of the H2O total column in the atmosphere over West Siberia. Int. Journ. Rem. Sensing, 35, 15, 5637-5650.
Arthur P. Cracknell, Costas A. Varotsos & Yuri M. Timofeyev, 2014: Remote sensing of atmospheric radiation and dynamics. Int. Journ. Rem. Sensing, 35, 15, 5563-5565.
Yana Virolainen, Yury Timofeyev, Alexander Polyakov, Dmitry Ionov, and Anatoly Poberovsky, 2014: Intercomparison of satellite and ground-based measurements of ozone, NO2, HF, and HCl near Saint Petersburg, Russia. Int. Journ. Rem. Sensing, 35, 15, 5677-5697.
Alexander Polyakov, Yurii M. Timofeyev, and Yana Virolainen, 2014: Comparison of different techniques in atmospheric temperature-humidity sensing from space. Int. Journ. Rem. Sensing, 35, 15, 5899-5912.
Polyakov A. V., Yu. M. Timofeev, Ya. A. Virolainen, and A. V. Poberovskii, 2014: Ground-based measurements of HF total column abundances in the stratosphere near St. Petersburg (2009–2013).
Izvestiya, Atmospheric and Oceanic Physics, 50, 6, 675–682.
Matvienko G.G., B.D. Belan, M.V. Panchenko, S.M. Sakerin, D.M. Kabanov, S.A. Turchinovich, Yu.S. Turchinovich, T.A. Eremina, V.S. Kozlov, S.A. Terpugova, V.V. Pol’kin, E.P.Yausheva, D.G. Chernov, S.L. Odintsov, V.D. Burlakov, M.Yu. Arshinov, G.A. Ivlev, D.E. Savkin, A.V. Fofonov, V.A. Gladkikh, A.P. Kamardin, D.B. Belan, M.V. Grishaev, V.V. Belov, S.V. Afonin, Yu.S. Balin, G.P. Kokhanenko, I.E. Penner, S.V. Samoilova, P.N. Antokhin, V.G. Arshinova, D.K. Davydov, A.V. Kozlov, D.A. Pestunov, T.M. Rasskazchikova, D.V. Simonenkov, T.K. Sklyadneva, G.N. Tolmachev, S.B. Belan, V.P. Shmargunov, B.A. Voronin, V.I. Serdyukov, E.R. Polovtseva, S.S. Vasil’chenko, O.V. Tikhomirova, Yu.N. Ponomarev, O.A. Romanovskii, L.N. Sinitsa, V.N. Marichev, M.V. Makarova, A.S. Safatov, A.S. Kozlov, S.B. Malyshkin & T.A. Maksimova, 2014: Instrumentation complex for comprehensive study of atmospheric parameters. Int. J. Rem. Sens., 35, 15, 5651-5676. http://dx.doi.org/10.1080/01431161.2014.945015.
Penner I. E., Balin Yu.S., Makarova M.V., Arshinov M.Yu., Voronin B.A., Belan B.D., Vasilchenko S.S., Serdyukov V.I., Sinitsa L.N., Polovtsev E.P., Kabanov D.M., Kokhanenko G.P., 2014: Mesearuments of H2O content by different metods. Comparisons of profiles of water vapor and aerosol. Atm. Oceanic Optics, 27, 8, 728-738 (in Russian).
Pastel M., J.-P. Pommereau, F. Goutail, A. Richter, A. Pazmino, D. Ionov, and T. Portafaix, 2014: Construction of merged satellite total O3 and NO2 time series in the tropics for trend studies and evaluation by comparison to NDACC SAOZ measurements. Atmos. Meas. Tech., 7, 3337–3354, www.atmos-meas-tech.net/7/3337/2014/doi:10.5194/amt-7-3337-2014.
Yana Virolainen, Maxim Eremenko, Yury Timofeyev, Gaelle Dufour, Anatoly Poberovsky, Alexander Polyakov, and Hamud Imhasin, 2014: Measurements of ozone columns in different atmospheric layers over St.Petersburg (Russia) using ground-based FTIR spectrometer in comparison with IASI satellite data. Geophysical Research Abstracts, 16, EGU2014-11353-5 (ôàéë EGU2014-11353-5.pdf).
Yana Virolainen, Maria Makarova, Dmitry Ionov, Alexander Polyakov, Oliver Kirner, Yury Timofeyev, Anatoly Poberovsky, and Hamud Imhasin, 2014: Comparison of ground-based FTIR measurements and EMAC model simulations of trace-gases columns near St. Petersburg (Russia) in 2009-2013. Geophysical Research Abstracts, 16, EGU2014-8050-7 (ôàéë EGU2014-8050-7.pdf).
Maria Makarova, Oliver Kirner, Anatoliy Poberovskii, Humud Imhasin, Yuriy Timofeyev, Yana Virolainen, and Boris Makarov, 2014: Atmospheric methane variability at the Peterhof station (Russia):ground-based observations and modeling. Geophysical Research Abstracts, 16, EGU2014-7623-2 (ôàéë EGU2014-7623-2.pdf).
N. M. Gavrilov and Yu. M. Timofeev, 2014: Comparisons of Satellite (GOSAT) and Ground-Based Spectroscopic Measurements of CO2 Content near St. Petersburg.
Izvestiya, Atmospheric and Oceanic Physics, 50, 9, 910–915.
M. V. Makarova, N. M. Gavrilov, Yu. M. Timofeev, and A. V. Poberovskii, 2014: Comparisons of Satellite (GOSAT) and Ground-Based Fourier Spectroscopic Measurements of Methane Content near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 50, 9, 904–909.
Timofeev Yu. M. and E. M. Shul’gina, 2013: Russian Investigations in the Field of Atmospheric Radiation in 2007–2010. Izvestiya, Atmospheric and Oceanic Physics, 49, 1, 19–36.
Polyakov A.V., Yu.M. Timofeev & A. V. Poberovskii, 2013: Ground-based measurements of total column of hydrogen chloride in the atmosphere near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 49, 4, 411–419, DOI: 10.1134/S0001433813040087.
Ionov D.V., M.A. Kshevetskaya, Yu.M. Timofeev, and A.V. Poberovskii, 2013: Stratospheric NO2 Content according to Data from Ground-Based Measurements of Solar IR Radiation. Izvestiya, Atmospheric and Oceanic Physics, 49, 5, 519–529. DOI: 10.1134/S0001433813040051.
Pastel M., J.-P. Pommereau, F. Goutail, A. Richter, A. Pazmino, and D. Ionov, 2013: Comparison of long term series of total ozone and NO2 column measurements in the southern tropics by SAOZ/NDACC UV-Vis spectrometers and satellites. Atmos. Meas. Tech. Discuss., 6, 4851–4893.
Rakitin A.V., Poberovskii A.V., Yu.M. Timofeev, M.V. Makarova, and T.J. Conway, 2013: Variations in the Column-Average Dry-Air Mole Fractions of CO2 in the Vicinity of St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 49, 3, 271–275. DOI: 10.1134/S0001433813030122.
Semakin S.G., A.V. Poberovskii, and Yu.M. Timofeev, 2013: Ground-Based Spectroscopic Measurements of the Total Nitric Acid Content in the Atmosphere. Izvestiya, Atmospheric and Oceanic Physics, 49, 3, 294–297. DOI: 10.1134/S0001433813030134.
Gavrilov N.M., Yu.M. Timofeev, 2013: Comparison of CO2 satellite (GOSAT) and ground-based spectroscopic mesearuments near Saint-Petersburg. Earth Res. from Space, 4, 1–7 (in Russian).
Virolainen Ya.A., Yu.M. Timofeev, A.V. Poberovsky, 2013: Comparison of satellite and ground-based mesearuments of total ozone. Earth Res. from Space, 4, 83–91 (in Russian).
Gavrilov N.M., M.V. Makarova, A.V. Poberovskii, and Yu.M. Timofeyev, 2013: Comparisons of CH4 satellite GOSAT and ground-based FTIR measurements near Saint-Petersburg (59.9°N, 29.8°E). Atmos. Meas. Tech. Discuss., 6, 7041–7062.
Timofeyev Yu., Dmitry Ionov, Maria Makarova, Yana Virolainen, Anatoly Poberovsky, Alexander Polyakov, Hamud Imhasin, Sergey Osipov, Anton Rakitin, Marina Kshevetskaya, 2013: Measurements of Trace Gases at Saint-Petersburg State University (SPbSU) in the Vicinity of Saint-Petersburg, Russia. In Disposal of Dangerous Chemicals in Urban Areas and Mega Cities, NATO Science for Peace and Security Series C: Environmental Security 2013, XV, Barnes, Ian; Rudzinski, Krzysztof J. (Eds.), 346 pp., 173-184.
Timofeyev Yuriy, Anatoly Poberovsky, Maria Makarova, Alexander Polyakov, Dmitry Ionov, Yana Virolainen, Vladimir Kostsov, Marina Kshevetskaya, Anton Rakitin, Sergey Osipov, Hamud Imhasin, and Inna Frantsuzova, 2013: Ground-based measurements of atmospheric trace gases near Saint-Petersburg, Russia. AIP Conference Proceedings, 1531, 528–531.
Polyakov Alexander, Yuriy Timofeyev, Vladimir Kostsov, Yana Virolainen,
and Alexander Uspensky, 2013: The atmospheric and surface sounding from the Meteor satellite (numerical simulation). AIP Conference Proceedings, 1531, 224–227.
Kostsov Vladimir, 2013: General approach to the formulation and solution of the multi-parameter inverse problems of atmospheric remote sensing. AIP Conference Proceedings, 1531, 240–243.
Timofeyev Y., Kostsov V., Virolainen Y., 2013: Synergetic ground-based methods for remote measurements of ozone vertical profiles. AIP Conference Proceedings, 1531, 380-383.
Makarova M.V., N.M. Gavrilov, Yu.M. Timofeev, A.V. Poberovskii, 2013: Comparisons of Satellite (GOSAT) and Ground-Based Fourier Spectroscopic Measurements of Methane Content near Saint-Petersburg. Earth Res. from Space, 3, 3–11 (in Russian).
Polyakov A.V., Yu.M. Timofeyev, and K.A. Walker, 2013: Comparison of the Satellite and Ground-Based Measurements
of the Hydrogen Fluoride Content in the Atmosphere. Izvestiya, Atmospheric and Oceanic Physics, 49, 9, 1002–1005.
Virolainen Ya.A., Yu.M. Timofeev, A.V. Poberovskii, 2013:
Intercomparison of Satellite and Ground-Based Ozone Total Column Measurements. Izvestiya, Atmospheric and Oceanic Physics, 49, 9, 993–1001.
Kostsov V.S., A.V. Poberovsky, S.I. Osipov, Yu.M. Timofeyev, 2012: Multiparameter Technique for Interpreting Ground-Based
Microwave Spectral Measurements in the Problem of Ozone Vertical
Profile Retrieval. Atmospheric and Oceanic Optics, 25, 4, 269-275.
Kshevetskaya M.A., Poberovsky A.V., Timofeev Yu.M., 2012: Measurements of N2O total column amount in the vicinity of St. Petersburg. Atmospheric and Oceanic Optics, 25, 1, 75-79 (in Russian).
Ionov D.V. and A.V. Poberovskii, 2012: Nitrogen dioxide in the air basin of St. Petersburg: Remote measurements and numerical simulation. Izvestiya, Atmospheric and Oceanic Physics, 48, 4, 373-383, DOI: 10.1134/S0001433812040093.
Rakitin A.V., V.S. Kostsov, Yu.M. Timofeev, 2012: Determining the accuracy of estimation of the two-dimensional stratospheric temperature field based on satellite measurements of limb radiation in the CO2 15-um absorption band with high spectral resolution.
Izvestiya, Atmospheric and Oceanic Physics, 48, 9, 909-917.
Yagovkina I.S., A.V. Polyakov, A.V. Poberovskii, Yu.M. Timofeev, 2011: Spectroscopic Measurements of Total CFC-11 Freon
in the Atmosphere near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 47, 2, 186-189.
Makarova M.V., A.V. Rakitin, D.V. Ionov & A.V. Poberovskii, 2011: Analysis of variability of the CO, NO2, and O3 contents in the troposphere near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 47, 4, 468-479, DOI: 10.1134/S0001433811040074.
Virolainen Ya. A. , Yu.M. Timofeev, D.V. Ionov, A.V. Poberovskii & A.M. Shalamyanskii, 2011: Ground-based measurements of total ozone content by the infrared method. Izvestiya, Atmospheric and Oceanic Physics, 47, 4, 480-490, DOI: 10.1134/S0001433811040104.
Polyakov A.V., Yu.M. Timofeev, A.V. Poberovskii, I.S. Yagovkina, 2011: Seasonal Variations in the Total Content of Hydrogen Fluoride in the Atmosphere. Izvestiya, Atmospheric and Oceanic Physics, 47, 6, 760-765, DOI: 10.1134/S0001433811060132.
Polyakov A.V., Yu.M. Timofeyev, and A.B. Uspensky, 2011: Possibilities for Determining Temperature and Emissivity
of the Land Surface from Data of Satellite IR Sounders
with High Spectral Resolution (IRFS-2). Izvestiya, Atmospheric and Oceanic Physics, 47, 9, 1092-1096.
Dirksen, R. J., Boersma, K. F., Eskes, H. J., Ionov, D. V., Bucsela, E. J., Levelt, P. F., et al., 2011: Evaluation of stratospheric NO2 retrieved from the ozone monitoring instrument: Intercomparison, diurnal cycle, and trending. Journal of Geophysical Research, 116, D08305, doi:10.1029/2010JD014943.
Hendrick, F., Pommereau, J. -P., Goutail, F., Evans, R. D., Ionov, D., Pazmino, A., et al., 2011: NDACC/SAOZ UV-visible total ozone measurements: Improved retrieval and comparison with correlative ground-based and satellite observations. Atmospheric Chemistry and Physics, 11(12), 5975-5995.
Makarova M.V., A.V. Poberovskii, and S.I. Osipov, 2011: Time Variations of the Total CO Content in the Atmosphere near St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 47, 6, 739–746.
Poberovskii A.V., 2010: High-resolution ground measurements of the IR spectra of solar radiation. Atmospheric and Oceanic Optics, 23, 2, 161–163, doi: 10.1134/S1024856010020132.
Virolainen Ya.A., Yu.M. Timofeev, A.V. Polyakov, A.B. Uspenskii, 2010: Optimal parameterization of the spectra of outgoing thermal radiation with the data of the IKFS-2 spaceborne IR sensing device taken as an example. Atmospheric and Oceanic Optics, 23, 3, 215–221.
Semakin S.G., Timofeev Yu.M., Polyakov A.V., Virolainen Ya.A., 2010: On determination of stratospheric aerosol microstructure from limb scatter measurememnts. Atmospheric and Oceanic Optics, 23, 4, 334–338.
Semakin S.G., Timofeev Yu.M., Polyakov A.V., Virolainen Ya.A., 2010: Analysis of errors of retrieving the stratospheric aerosol optical characteristics by the satellite limb scattering method. Earth Res. from Space, 3, 71–76 (in Russian).
Polyakov A.V., Yu.M. Timofeyev, A.B. Uspensky, 2010: Possibilities of determination of the ozone and trace gases using the high spectral
resolution data from IR satellite sensor IRFS-2. Earth Res. from Space, 3, 3–11 (in Russian).
Ionov D.V., 2010: Tropospheric NO2 trend over St. Petersburg (Russia) as measured from space. Russian Journal of Earth Sciences, 11, ES4004, doi:10.2205/2010ES000437.
Poberovskii A.V., Polyakov A.V., Yu.M. Timofeev, 2010: Measurements of the Hydrogen Fluoride Total Column Amount in the Atmosphere
over the Vicinity of St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 46, 2, 261–263.
Poberovskii A.V. , M.V. Makarova, A.V. Rakitin, D.V. Ionov, and Yu.M. Timofeev, 2010: Variability of the Total Column Amounts of Climate Influencing Gases
Obtained from Ground-Based High Resolution Spectroscope measurements. Doklady Earth Sciences, 432, 01, 656–658.
Polyakov A.V., Yu.M. Timofeyev, A.B. Uspensky, 2010: Possibilities of determination of the land surface temperature and emissivity using the high spectral
resolution data from IR satellite sensor IRFS-2. Earth Res. from Space, 4, 85–90 (in Russian).
Polyakov A.V., Yu.M. Timofeyev, 2010: Refined method for determining the total ozone using SEVIRI device on board geostationary METEOSAT satellites.Earth Res. from Space, 5, 42–45 (in Russian).
Kshevetskaya M.A., A.V. Poberovsky, 2010: The system of archiving solar high-resolution IR spectra for remote sensing problems of atmosphere. Vestnik SPbSU, ser. 4, issue 3, 100–104.
de Laat A.T.J., A.M.S. Gloudemans, H. Schrijver, I. Aben, Y. Nagahama, K. Suzuki, E. Mahieu, N.B. Jones, C. Paton-Walsh, N.M. Deutscher, D.W.T. Griffith, M. De Maziere, R. Mittelmeier, H. Fast, J. Notholt, M. Palm, T. Hawat, T. Blumenstock, C. Rinsland, A.V. Dzhola, E.I. Grechko, A.M. Poberovskii, M.V. Makarova, J. Mellqvist, A. Strandberg, R. Sussmann, T. Borsdorff, and M. Rettinger, 2010: Validation of five years (2003–2007) of SCIAMACHY CO total column measurements using ground-based spectrometer observations. Atmos. Meas. Tech. Discuss., 3, 2891–2930, www.atmos-meas-tech-discuss.net/3/2891/2010/ doi:10.5194/amtd-3-2891-2010.
Virolainen Ya.A., Yu.M. Timofeyev, 2010: Complex method for determining ozone vertical profiles to validate satellite measurements. Earth Res. from Space, 4, 61–66 (in Russian).
Timofeyev Yu.M., 2010: Global system for monitoring parameters of atmosphere and surface. Educational book. Saint-Petersburg, SPbSU, Physical faculty, 129 p.
Timofeyev Yu.M., and E.M. Shulgina, 2009: Russian Studies of Atmospheric Radiation in 2003–2006. Izvestiya, Atmospheric and Oceanic Physics, 45, 2, 182-197.
Polyakov A.V., Yu.M. Timofeyev, A.B. Uspensky, 2009: Temperature-Humidity Sounding of the Atmosphere from Data of IR Satellite Sensor IRFS-2 with a High Spectral
Resolution. Earth Res. from Space, 5, 3-10 (in Russian).
Ionov D.V. and Yu. M. Timofeev, 2009: Regional Space Monitoring of Nitrogen Dioxidein the Troposphere. Izvestiya, Atmospheric and Oceanic Physics, 45, 4, 434-443, DOI:
10.1134/S0001433809040045.
Ionov D.V., 2009: Vertical structure of multiyear trend of stratospheric aerosol from data of satellite measurements over South region of Russia. Earth Res. from Space, 4, 3–8 (in Russian).
Semakin S.G., Yu.V. Timofeyev, A.V. Polyakov, Ya.A. Virolainen, 2009: Potential accuracies of retrieving the scattering coefficient of stratospheric aerosol from limb measurements of solar scattering radiation. Earth Res. from Space, 4, 54–63, (in Russian).
Makarova M.V., A.V. Poberovskii, K.N. Visheratin, and A.V. Polyakov, 2009: Time Variability of the Total Methane Content in the Atmosphere over the Vicinity of St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 45, 6, 723–730.
Chayka A.M., Yu.M. Timofeyev and A.V. Polyakov, 2008: Integral microphysical parameters of stratospheric background aerosol for 2002–2005 (the SAGE III satellite experiment). Izvestiya, Atmospheric and Oceanic Physics, 44, 2, 193-206.
Ionov, D.V., Y. M. Timofeyev, V. P. Sinyakov, V. K. Semenov, F. Goutail, J.-P. Pommereau, E. J. Bucsela, E.A. Celarier, and M. Kroon, 2008: Ground-based validation of EOS-Aura OMI NO2 vertical column data in the midlatitude mountain ranges of Tien Shan (Kyrgyzstan) and Alps (France). J. Geophys. Res., 113, D15S08, doi:10.1029/2007JD008659.
Celarier E.A., E. J. Brinksma, J. F. Gleason, J. P. Veefkind, A. Cede, J. R. Herman, Ionov D., et al., 2008: Validation of Ozone Monitoring Instrument Nitrogen Dioxide Columns. J. Geophys. Res., 113, D15S15, doi:10.1029/2007JD008908.
Kostsov V.S., A.V. Polyakov, A.V. Rakitin, D.V. Ionov, 2008: The results of the detemination of NO2 content in the stratosphere from date of SAGE III experiment. Earth Res. from Space, 5, 16-28 (in Russian).
Makarova M.V., G.A. Alekseenkov, V.S. Kostsov, and A.V. Poberovskii, 2008: Assessment of the Influence of Air Invasions from the Upper Troposphere on the CO Total Column Amount in the St. Petersburg Region. Izv., Atmospheric and Oceanic Physics, 44, 5, 606–614.
Polyakov A.V., C. Rendall, L. Harvey, K. Hocke, 2008: New improved algorithm for interpreting the SAGE III occultation measurements. Earth Res. from Space, 1, 31-36 (in Russian).
Polyakov A.V., Yu.M. Timofeev, Ya.A. Virolainen, 2008: Polar Stratospheric Clouds from Satellite Observational Data. Izv., Atmospheric and Oceanic Physics, 44, 4, 448–458.
Polyakov A.V., Yu.M. Timofeev, 2008: Determining the Total Ozone Content from Geostationary
Earth Satellites. Izv., Atmospheric and Oceanic Physics, 44, 6, 745–752.
Rakitin A.V., V.S. Kostsov, A.V. Polyakov, 2008: Accounting for nonsteady state of the atmosphere when sounding its composition by occultation method. Earth Res. from Space, 2, 1-11 (in Russian).
Semakin S.G., A.V. Polyakov, Yu.M. Timofeyev, 2008: Comparison of measured and calculated transmittance functions in the O2 A-band at 0.76 mm. Earth Res. from Space, 1, 37-43 (in Russian).
Virolainen Ya.A., Yu.M. Timofeyev, 2008: Retrieval of elements of the ozone vertical structure from ground-based measurements of the solar radiance with high spectral resolution. Earth Res. from Space, 2008, 3, 3-10 (in Russian).
Chaika A.M., Yu.M. Timofeyev, A.V. Polyakov, 2007: Stratospheric Aerosol from the Data of SAGE III Measurements. Earth Res. from Space, 2007, 2, 10-18 (in Russian).
Hocke K., N. Kampfer, D. Ruffieux, L. Froidevaux, A. Parrish, I. Boyd, T.v Clarmann, T. Steck, Yu.M. Timofeyev, A.V. Polyakov, E. Kyrola, 2007: Comparison and synergy of stratospheric ozone measurements by satellite limb sounders and the ground-based microwave radiometer SOMORA. Atmos. Chem. Phys., 7, 4117-4131.
Makarova M.V., V.S. Kostsov, and A.V. Poberovskii, 2007: Study of the Factors Determining Anomalous Variability of Carbon Dioxide Total Column Amount over St. Petersburg. Izvestiya, Atmospheric and Oceanic Physics, 43, 4, 497-504.
Poberovskii A. V., A. V. Shashkin, D.V. Ionov, and Yu.M. Timofeev, 2007: NO2 Content Variations near St. Petersburg as Inferred from Ground-Based and Satellite Measurements of Scattered Solar Radiation. Izv., Atm.. Ocean. Phys., 43, 4, 505–513.
Polyakov A.V., Yu.M. Timofeyev, 2007: On accuracy of retrieving the total ozone by SEVIRI device on board the geostationary satellite Meteosat-8. Earth Research from Space, 2007, 2, 3-9 (in Russian).
Virolainen Ya.A., A.V. Polyakov, Yu.M. Timofeyev, 2007: The analysis of HALOE and SAGE III aerosol extinction measurements. Earth Res. from Space, 3, 3-8 (in Russian).
Ionov D.V., V.P. Sinyakov, V.K. Semenov, 2006: Validation of GOME (ERS-2) NO2 vertical column data with ground-based measurements at Issyk-Kul (Kyrgyzstan). Adv. Space Res., 37, 2254-2260.
Kostsov V.S., A.V. Rakitin, 2006: Inaccuracy of the assumption of spherically homogeneous atmosphere in the problem of limb nonequilibrium radiation calculations in the 9.6 um ozone band in the mesosphere. Earth Res. from Space, 5, 1-11 (in Russian).
Makarova M.V., A.V. Poberovskii, S.V. Yagovkina, I.L. Karol’, V.E. Lagun, N.N. Paramonova, A.I. Reshetnikov and V.I. Privalov, 2006: Study of the formation of the methane field in the atmosphere over northwestern Russia. Izvestiya, Atmospheric and Oceanic Physics, 42, 2, 215-227.
Timofeyev Yu.M., A.V. Polyakov, A.V. Vasilyev, Ya.A. Virolainen, 2006: Possibilities of determining the aerosol optical parameters from satellite measurements of scattered solar radiation. Earth Research from Space, 1, 19-24 (in Russian).
Virolainen Ya.A., Yu. M. Timofeev, A. V. Polyakov, H. Steele, and M. Newchurch, 2006: Analysis of Solutions to the Inverse Problem on the Retrieval of the Microstructure of Stratospheric Aerosol from Satellite Measurements, Izv. RAN, Atm. and Oceanic Phys., 42, 6, 752-764.
Polyakov,
A.V., Yu.M. Timofeyev, D.V. Ionov, Ya.A. Virolainen, H.M. Steele, and
M.J. Newchurch, 2005: Retrieval
of ozone and nitrogen dioxide concentrations from SAGE III measurements
using a new algorithm. Journ. Geoph. Res., 110, D06303,
doi:10.1029/2004JD0050602004.
Vasilyev A.V., A.V. Polyakov, 2005:
Variations of the intensity of scattered solar radiation due to variations
of parameters of atmospheric aerosol in the scheme of limb sounding
of the Earth horizon (numerical modeling and preliminary analysis of
measurement information content). Optics of Atm. and Ocean, 18,
4, 352-358.
Virolainen, Ya.A., Yu.M. Timofeev, A.V. Polyakov, H.M. Steele, E.
Drlda, M.J. Newchurch, 2005: Modeling
of polar stratospheric clouds (PSC): I. Microphysical characteristics;
II. Statistics of spectral extinction coefficient and possibilities
of PSC remote sensing. Optics of Atm. and Ocean, 3, 7, 264-269; 7, 586-591.
Kostsov V.S., and Yu.M. Timofeyev, 2005:
Mesospheric ozone from data
of satellite experiment CRISTA-1: 1. Method for retrieving the vertical
profiles and the analysis of its accuracy. Izv. RAS, Atm. Ocean.
Phys., 41, 2, 201-214 (Engl. transl.).
Kostsov V.S., and Yu.M. Timofeyev, 2005:
Mesospheric ozone from data
of satellite experiment CRISTA-1: 2. Spatial distributions and
daily variations. Izv.
RAS, Atm. Ocean. Phys., 41, 2, 215-226 (Engl. transl.).
Kostsov V.S. and Yu.M.
Timofeev, 2005: Mesospheric Temperature
Inversions from CRISTA-1 Data. Izv. RAS, Atm. Ocean. Phys., 41,
6, 741-749.
Rakitin A.V., V.S. Kostsov, 2005: Assumption of the Spherically Homogeneous Atmosphere in the Problem of the Satellite IR Remote Sensing of the Mesosphere Using Limb Geometry. Earth Res. from Space, 4, 1-7. Earth Res. from Space, 4, 1-7.
Makarova M.V., A.V. Poberovskii,
and Yu. M. Timofeev, 2004: Temporal
Variability of Total Atmospheric Carbon Monoxide over St. Petersburg.
Izv. RAS, Atm. and Oceanic Physics, 40, 3, 313-322.
Polyakov A.V., Yu.M. Timofeyev, 2004:
Influence of the inverse algorithm on results of atmospheric sounding
by occultation method (SAGE III device). Earth Res. from Space,
5, 15-20 (Engl. transl.).
Virolainen, Ya.A., A.V. Polyakov, and Yu.M. Timofeev, 2004:
Statistical Optical Models for Tropospheric Aerosol. Izv. RAS, Atm.
and Oceanic Phys., 40, 2, 216-227 (Engl. transl.).
Virolainen, Ya.A., A.V. Polyakov, 2004:
Consideration of radiation scattering in ground-based gas-correlation
measurements of total methane. Earth Res. from Space, 4, 3-9.
Ionov D.V., T.A. Egorova,
V.A. Zubov, E.V. Rozanov, 2003:
Global fields of total ozone and nitrogen dioxide contents from data
of satellite measurements and 3D modelling. Izv. RAS, Atm. and Oceanic
Physics, 39, 5, 620-630 (Engl. transl.).
Kostsov V.S., Yu.M.
Timofeyev, 2003: Mesospheric Carbon
Dioxide Content As Determined from the CRISTA-1 Experimental Data. Izv.
RAS, Atm. and Ocean. Phys., 39, 3, 322-332.
Polyakov A.V., and Yu.M. Timofeyev, 2003:
Potential accuracies for retrieving the vertical profiles of atmospheric
parameters (Satellite-based transmittance method): 1. Ozone and nitrogen
dioxide contents. Izv. RAS, Atm. and Oceanic Physics, 39,
2, 227-233 (Engl. transl.).
Polyakov A.V. and Yu.M. Timofeyev, 2003:
Potential Accuracies of Retrieving the Vertical Profiles of Atmospheric
Parameters (Satellite-Based Transmittance Method):2. Spectral Coefficient
of Aerosol Extinction. Izv. RAS, Atm. and Ocean. Phys., 39,
2, 234-239 (Engl. transl.).
Timofeyev
Yu.M., A.V. Polyakov, H.M. Steele, M.J. Newchurch, 2003:
Optimal Eigenanalysis for the Treatment of Aerosols in the Retrieval
of Atmospheric Composition from Transmission Measurements. Appl.
Optics, 42, 10, 2635-2646.
Timofeyev Yu.M., A.V. Vasilyev, 2003:
Theoretical basis of atmospheric optics. SPb, "Science",
475 pp. (in Russian).
Ionov D.V., Yu.M. Timofeyev, A.M. Shalamyansky, 2002:
Comparisons of satellite (GOME, TOMS) and ground-based total ozone measurements.
Earth Res. from Space, 3, 10-19 (Engl. transl.).
Ionov D.V., Yu.M. Timofeyev, A.M. Shalamyansky, J.-K. Lambert,
N.F. Elansky, A.S. Elokhov, A.M. Gruzdev, O.V. Postylyakov,
2002: Global monitoring of atmospheric concentrations of the
ozone and NO2 by data of GOME satellite experiment: accuracy analysis.
Russian Physical Idea, 2, 158-165 (in Russian).
Polyakov A.V., V. V. Vorob'ev, and V. Kan, 2002:
Effect of Uncertainty in Specifying Statistical Characteristics of Stellar
Scintillation on the Error of Ozone Determination from Stellar Occultation
Measurements. Izv. RAS, Atm. Ocean. Phys., 38, 2 (Engl.
transl.).
Virolainen Ya.A., H. Grassl, S. Bakan, H.-D. Holweig, A.V. Polyakov,
Yu.M. Timofeyev, 2002: An experience
of ground-based sounding of the atmosphere on the basis of Fourier spectrometry
of thermal radiation. Earth Res. from Space, 4, 43-49 (Engl.
transl.).
Virolainen Ya.A., B.V. Dementyev, V.V. Ivanov, A.V. Polyakov,
2002: Optimization of parameters of gas-correlation
IR radiometer for measuring the methane content in the boundary atmospheric
layer from aerospace carriers. Earth Res. from Space, 6, 39-48
(Engl. transl.).
Kashin F.V., N.E. Kamenogradsky,
E.I. Grechko, A.V. Dzola, A.V. Poberovski, M.A. Makarova, 2001:
Comparisons of different methods of ground-based spectroscopic measurements
of the total methane content in the atmosphere. Izv. RAS, Atm. and
Oceanic Phys., 37, 3, 314-319 (Engl. transl.).
Kostsov V.S. and Yu.M. Timofeyev, 2001:
Interpretation of Satellite Measurements of the Outgoing Nonequilibrium
IR Radiation in the CO2 15-mm Band: 1. Description of the Method and
Analysis of Its Accuracy; 2. Processing the CRISTA Experimental Data.
Izv. RAS, Atm. and Ocean. Phys., 37, 6, 728-738; 739-747.
Kostsov V.S., Yu. M. Timofeev, K. Grossmann, et al., 2001:
Interpretation of Satellite Measurements of the Outgoing Nonequilibrium
IR Radiation in the CO2 15-mm Band: 2. Processing the CRISTA Experimental
Data. Izv. RAS, Atm. and Ocean. Phys., 37, 6, 739-747.
Makarova M.V., A.V. Poberovki, Yu.M. Timofeyev, 2001:
Spectroscopic Measurements of the Total Methane Content in the Atmosphere
over St.Petersburg. Izv. RAS, Atm. and Ocean. Phys., 37,
1, 67-73 (Engl. transl.).
Polyakov A.V., Yu.M. Timofeyev, et al., 2001:
Retrieval of stratospheric vertical profiles of aerosol extinction coefficients
from Ozon-Mir measurements (Mir Space Station). Izv. RAS, Atm. and
Ocean. Phys., 37, 2, 213-222 (Engl. transl.).
Polyakov, A.V., A.V. Vasilyev, Yu.M. Timofeyev, 2001:
Parameterization of the spectral dependence of aerosol attenuation coefficient
in problems of atmospheric occultation sounding from space. Izv.
RAS, Atm. and Ocean. Phys., 37, 5, 599-609 (Engl. transl.).
Polyakov A.V., Yu.M. Timofeev, A.S. Gurvich, V.V. Vorob'ev, V. Kan,
and J.-H. Yee, 2001: Effect of stellar
scintillations on the error in measuring the ozone content of the atmosphere.
Izv. RAS, Atm. and Oceanic Physics, 37, 1, 51-60 (Engl.
transl.).
Virolainen Ya.A., A.V. Polyakov, Yu.M. Timofeyev, D. Spankuch, and
W. Dohler, 2001: Determination of characteristics
of the gaseous composition of the atmosphere from measurements of the
downward IR thermal radiation. Izv. RAS, Atm. and Ocean. Physics,
37, 1, 30-37 (Engl. transl.).
Smirnova Î.À., D.V. Ionov, Yu.M. Timofeyev, A.V. Vasilyev, 2000:
New total ozone trends over Central and North Europe (deduced from TOMS
data). Earth Res. from Space, 2, 3-7 (Engl. transl.).
Timofeyev Yu.M., A.V. Polyakov, E.M. Shulgina, A.V. Vasilyev, V.V.
Rozanov, 2000: On the informativeness
and optimal design of outgoing radiance measurements in problems of
remote sensing of the atmosphere. Adv. Space Res., 26,
6, 955-964.
Timofeyev Yu.M., D.V. Ionov, A.V. Polyakov, N.F. Elansky, A.S. Elokhov,
A.M. Gruzdev, O.V. Postylyakov, E.V. Rozanov, 2000:
Comparison of satellite and ground-based measurements of total NO2.
Izv. RAS., Atm. and Ocean. Phys., 36, 6, 802-808 (Engl.
transl.).
Kostsov, V.S., A.V. Polyakov, Yu.M. Timofeyev, H. Fischer, T.v.
Clarmann, and G.P. Stiller, 1999: Intercomparison
between the Global Fit and the Optimal Estimation Inversion Methods
in Case of the Limb Radiance Measurements: Temperature and Pressure
Profile Retrievals. Earth Res. from Space, 1, 43-49 (Engl. transl.).
Kostsov, V.S., A.V. Polyakov, Yu.M. Timofeyev, H. Fischer, T.v. Clarmann,
and G.P. Stiller, 1999: Intercomparison
between the Global Fit and the Optimal Estimation Inversion Methods
in Case of the Limb Radiance Measurements: Ozone and Water Vapour Profile
Retrievals. Earth Res. from Space, 3, 21-26 (Engl. transl.).
Poberovsky, A.V., A.V. Polyakov, Yu.M. Timofeyev, A.E. Kovalyev,
V.M. Prohorov, A.Z. Khrustalyev, V.A. Panchenko, I.I. Mansurov, O.N.
Volkov, 1999: Determination of vertical
profiles of the ozone content by the occultation method from the "MIR"
Orbital Station: 1. Description of instrumentation and data processing
method. Examples of results. Izv. RAS, Atm. and Ocean. Phys.,
35, 3, 312-321 (Engl. transl.).
Polyakov A.V., 1999: The system
of processing the data of orbital measurement of the atmospheric transmittance
by the "Ozon-Mir" spectrometer: preliminary and initial processing
of the telemetric information. Earth Res. from Space, 4, 46-55
(Engl. transl.).
Polyakov, A.V., A.V. Poberovsky, Yu.M. Timofeyev, 1999:
Determination of vertical profiles of the ozone content by the occultation
method from the "MIR" Orbital Station: 2. Validation of measurements
of the ozone vertical profiles. Izv. RAS, Atm. Ocean. Phys.,
35, 3, 322-328 (Engl. transl.).
Virolainen Ya.A., A.V. Polyakov, Yu.M. Timofeyev, 1999:
Errors of simultaneous determination of atmospheric gas content from
ground-based measurements of IR radiation. Izv. RAS, Atm. and Ocean.
Physics, 35, 2, 215-221 (Engl. transl.).
Ionov, D.V., Yu.M. Timofeyev, V.V. Ionov, A.M. Shalamynsky, O.M.
Yohannessen, Y.P. Burrows, 1998: The
comparison of satellite total ozone measurements (GOME spectrometer,
ERS-2) with data of Russian ozonometric network. Earth Res. from
Space, 4, 14-22. (Engl. transl.)
Kostsov, V.S., 1998: On the application
of a priori information to the solution of inverse problems of remote
sensing of the non-LTE atmosphere in the infrared region by high-resolution
spectral instruments. Adv. Space Res., 21, 3, 405-408.
Polyakov, A.V., V.B. Melas, Yu.M. Timofeyev, E.M. Shulgina, 1998:
An optimization of spectral measurement design in the task of microwave
temperature sounding of the atmosphere from satellites. Earth Res.
from Space, 1, 21-28, (Engl. transl.).
Polyakov A.V., Yu.M. Timofeyev, M.V. Tonkov, N.N. Filippov, 1998:
Effect of spectral line mixing on atmospheric transmittance functions
in CO2 absorption bands. Izv. RAS, Atm. and Ocean. Phys., 34,
3, 357-367 (Engl. transl.).
Polyakov A.V., Yu.M. Timofeyev, M.V. Tonkov, N.N. Filippov, 1998:
Effect of line mixing on transmission functions in O3 and CH4 absorption
bands. Izv. RAS, Atm. Ocean. Phys., 34, 3, 368-373 (Engl.
transl.).
Timofeyev Yu.M., 1998: Inverse problems
of atmospheric optics. Izv. RAS, Atm. Ocean. Phys., 34,
6, 793-798 (Engl. transl.).
Virolainen Ya.A., A.V. Polyakov, Yu.M. Yimofeyev, 1998:
On the atmospheric sounding on the basis of measurement data of downgoing
thermal IR radiation. Earth Res. from Space, 3, 31-38 (Engl.
transl.).
Ionov D.V., 1997: On determination
of methane in the atmosphere from space measurements of reflected and
scattered solar radiation. Earth Res. from Space, 5, 3-7 (Engl.
transl.).
Kostsov, V.S., H. Fischer, Yu.M. Timofeyev, and G. Stiller, 1997:
MIPAS used as a nonlocal thermodynamic equilibrium sounder for NO 5.3mm
band. J.G.R., 102, D25, 30,003-30,015.
Kostsov, V.S., R.O. Manuilova, 1997:
Spectral structure of the Earth's limb nonequilibrium radiance in the
9.6-mm ozone band. Izv. RAS, Atm. and Ocean. Phys., 33,
4, 339-347 (Engl. transl.).
Polyakov A.V., Yu.M. Timofeyev, M.V. Tonkov, N.N. Filippov, 1997:
Line shift influence on atmospheric slant path transmittance function.
Opt. Atm. and Ocean., 10, 2, 157-161.
Virolainen Ya.A., A.V. Polyakov, Yu.M. Timofeyev, 1997:
Possibilities for determining the vertical structure of the ozone content
from ground-based measurements of IR radiation. Izv. RAS, Atm. and
Ocean Physics, 33, 4, 464-467 (Engl. transl.).
Ionov D.V., A.V. Polyakov, 1996:
Comparison of methods for calculating the transmittances of cloudless
atmosphere in near-IR spectral range. Earth Res. from Space,
4, 3-11.
Ionov D.V., A.V. Polyakov, Yu.M. Timofeyev, 1996:
On determination of water vapor content in the atmosphere from space
measurements of reflected and scattered solar radiation. Earth Res.
from Space, 6, 52-58.
Timofeyev, Yu.M, V.P. Kozlov, A.V. Polyacov, 1996:
Regression approach to the calculated absolute calibration of the space
devices. Adv. Space Res., 17, 1, (1)39-(1)42.
Timofeyev Yu.M., A.A. Martunov, 1996:
On determination of temperature and emissivity of land surface. Earth
Res. from Space, 4, 12-17 (Engl. transl.).
Tonkov, M.V., N.N. Filippov, Yu.M. Timofeyev, A.V. Polyakov,
1996: A simple model of line mixing effect
for atmospheric applications: Theoretical background and laboratory
testing. J.Q.S.R.T., 56, 5, 783-795.
Furrer R., V.V. Antonov, and Yu.M. Timofeyev, 1995:
FTIR-spectroscopy from space: the MIRIAM mission. Adv. Space Res.,
15, 11, 135-144.
Kostsov V.S., Yu.M. Timofeyev, 1995:
Mesospheric Ozone from the CRISTA-1 Satellite Experimental Data: 1.
Method of Profile Determination and Its Accuracy; 2. Spatial Distributions
and Daily Variations. Izv. RAS, Atm. and Oceanic Physics, 41,
2, 58-71; 72-83.
Timofeyev, Yu.M., V.S. Kostsov, and H. Grassl, 1995:
Numerical investigations of the accuracy of the remote sensing of non-LTE
atmosphere by space-borne spectral measurements of limb IR radiation:
15mm CO2 bands, 9.6mm O3 bands and 10mm laser bands. J.Q.S.R.T.,
53, 6, 613-632.
Timofeyev Yu.M., A.V. Vasilyev, V.V. Rozanov, 1995:
Information content of the spectral measurements of the 0.76mm O2 outgoing
radiation with respect to the vertical aerosol optical properties. Advances
of Space Res., 16, 10, 91-94.
Timofeyev, Yu.M., L.I. Dlugoborskaya, V.S. Kostsov, V.M. Osipov,
and R. Furrer, 1995: About the accuracy
of estimating the characteristics of atmosphere gases composition by
space measurements of the IR sun radiation absorption. Earth Res.
from Space, 1, 12-24.