Geodesic
Researches of the thermal regime of stratosphere over Tomsk for the period 2012-2015. according to lidar observations
Vestnik KRAUNC. Fiziko-matematičeskie nauki, no. 5 (2018), pp. 24-33 Cet article a éte moissonné depuis la source Math-Net.Ru

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This article presents a study of the vertical temperature distribution over Tomsk, carried out in disturbed and calm periods of the year for 2012-2015. Based on the accumulated experimental material, a number of features of the intra-annual dynamics of the stratospheric thermal regime were established. So, winter stratospheric warming occurs annually. During this period, two strong (major) warmings of the winters of 2009/10 and 2012/13 were recorded, during which the transfer of air masses from the western to the eastern in the upper atmosphere, and four weak (minor) airflows, were winters 2011/10, 2012 /11, 2014/13 and 2015/14 Over many years of observations, it has been shown that for the region of Western Siberia for a long period of the year April-November, in the overwhelming majority of cases, the vertical temperature distribution is in good agreement with the model CIRA-86 distribution.
Mots-clés : lidar
Keywords: vertical temperature distribution, stratospheric warming. 
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     title = {Researches of the thermal regime of stratosphere over {Tomsk} for the period 2012-2015. according to lidar observations},
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V. N. Marichev; D. A. Bochkovsky. Researches of the thermal regime of stratosphere over Tomsk for the period 2012-2015. according to lidar observations. Vestnik KRAUNC. Fiziko-matematičeskie nauki, no. 5 (2018), pp. 24-33. http://geodesic.mathdoc.fr/item/VKAM_2018_5_a2/

[1] Barnett J. J., Labitzke K., “Planatary waves”, Handbook for MAP, v. 16, 1985, 138-143

[2] Hromov S. P., Mamontova L. I., Meteorologicheskij slovar', Gidrometeoizdat, 568 pp.

[3] Atmosfera. Spravochnik, Gidrometeoizdat, 510 pp.

[4] Matsuno T., “A dynamical model of stratospheric sudden warming”, J. Atmos. Sci., 28 (1971), 1479–1494 | 2.0.CO;2 class='badge bg-secondary rounded-pill ref-badge extid-badge'>DOI

[5] Pal S. R., Carswell A. I., Bird J., Donovan D. P., Duck T. J., Whiteway J. A., “Lidar measurements of the stratosphere at the Eureka and Toronto NDSC stations”, Proceedings of SPIE, 2833, 28-39 | DOI

[6] Whiteway J. A., Duck T. J., Carswell A. I., “Measurements of gravity wave activity within and around the Arctic stratospheric vortex.”, Geophys. Res. Lett., 24 (1997), 1387-1390 | DOI

[7] Kokina G. A., Gajgerov S. S., Meteorologiya verhnej atmosfery zemli, Gidrometeoizdat, 1981, 270 pp.

[8] Holton Dzh. R., Dinamicheskaya meteorologiya stratosfery i mezosfery, Gidrometeoizdat, 1979, 224 pp.

[9] Gajgerov S. S., Zhorova EH. D., “Termicheskij rezhim i cirkulyaciya v srednej atmosfere.”, Meteorologiya i gidrologiya., 7 (1986), 5-10

[10] Marichev V. N., “Lidarnye nablyudeniya zimnih stratosfernyh poteplenij nad Tomskom v 1996-2000 gg”, Meteorologiya i gidrologiya, 8 (2001), 41-48

[11] Kurkin V. I., CHernigovskaya M. A., Marichev V. N., Nikolashkin S. V., Bychkov V. V., “Osobennosti proyavleniya zimnih vnezapnyh stratosfernyh poteplenij v period 2008-2010gg. nad regionami Sibiri i Dal'nego Vostoka Rossii po dannym lidarnyh i sputnikovym izmerenij temperatury.”, Solnechno-zemnaya fizika, 17 (2011), 166-173

[12] Marichev V. N., “Lidarnye issledovaniya proyavleniya stratosfernyh poteplenij nad Tomskom v 2008-2010 gg.”, Optika atmosfery i okeana, 24:5 (2011), 386-391

[13] Marichev V. N., “Issledovanie osobennostej proyavleniya zimnih stratosfernyh poteplenij nad Tomskom po dannym lidarnyh izmerenij temperatury v 2010-2011 gg.”, Optika atmosfery i okeana, 24:12 (2011), 1041-1046

[14] Nikolashkin S. V., Titov S. V., Marichev V. N., Bychkov V. V., Kurkin V. I., Chernigovskaya M. A., Nepomnyashchij YU. A., “Lidarnye issledovaniya povedeniya vnezapnyh zimnih stratosfernyh poteplenij na territorii Sibiri i Dal'nego Vostoka.”, Nauka i obrazovanie, 69:01 (2013), 10-17

[15] Marichev V. N., Bochkovskij D. A., “Lidarnye issledovaniya termicheskogo rezhima stratosfery nad Tomskom za 2012–2015 gg.”, Optika atmosfery i okeana, 31:01 (2018), 28–37

[16] (last access: 9.03.2017) http://sky.iao.ru/?content=msvza

[17] Rees D., Barnett J. J., Labitske K., COSPAR International Reference Atmosphere: 1986. Part II, Middle Atmosphere Models, v. 10, 1990, 525 pp.

[18] http://mirador.gsfc.nasa.gov

[19] http://weather.uwyo.edu/upperair/sounding.html

[20] http://users.met.fu-berlin.de