1. Chaikovsky A.P., Dubovik O., Holben D.N., Bril A.I. Methodology to re-trieve atmospheric aerosol parameters by combining ground-based meas-urements of multi-wavelength lidar and sun sky-scanning radiometer / Eight International Symposium on Atmospheric and Ocean and Ocean Optics: Atmospheric Physics, Gelii A. Zherebtsov, Genadii G. Matvienko, Victor A. Banakh, Vladimir V. Koshelev, Editors, Proceeding of SPIE, 2002, v. 4678, 257-268.
2. Chaikovsky A.P., Dubovik O., Holben D.N., Bril A.I., Barun V.V. Retriving atmospheric aerosol parameters on the base of multiwavelength lidar and sun sky-scanning radiometer data / Reviewed and revised papers at the twenty-first International Laser radar Conference (ILRC21) Quebec, Can-ada, 8-12 July 2002, 593-594.
3. Chaikovsky A., Bril A., Dubovik O., Holben B., Thompson A., Goloub Ph., O’Neill N., Sobolewski P., Bosenberg J., Ansmann A., Wandinger U., Mattis I. CIMEL and multiwavelength lidar measurements for troposphere aerosol altitude distributions investigation, long-range transfer monitoring and re-gional ecological problems solution: field validation of retrieval techniques // Optica Pura y Aplicada 2004. V. 37. Num. 3. P. 3241-3246.
4. Holben, B.N., et al. АERONET-A federated instrument network and data ar-chive for aerosol characterization // Remote Sens. Environ., 1998, v. 66, 1-16.
5. McCormick, M.P., Fuller, W.P. Lidar techniques for pollution studies // AIAA J., 1973, v. 11, No. 2, 244-246.
6. Reiter, R., Carnuth, W., Littfass, M., and Jaeger, H. Analysis of aerosol transport, aerosol remote sensing by lidar / Final report, 1977.
7. Ivasaka, J. The determination of the size distribution function of the strato-sphere aerosol by two-colar lidar // J. Meteorol. Soc. of Japan, 1997, v. 5, No. 7, 457-462.
8. Welton, E.J.,et al. The Micro-pulse Lidar Network (MPL-Net) / Lidar Re-mote Sensing in Atmospheric and Earth Sciences, Reviewed and revised pa-pers at the twenty-first International Laser Radar Conference (ILRC21), Quebec, Canada, 8-12 July 2002, 285-288 (2002).
9. . Иванов, А.П. Лидарная система дистанционного мониторинга загряз-нения атмосферы на основе лазеров в ультрафиолетовом, видимом и инфракрасном диапазонах / А.П.Иванов и др. // Материалы Междуна-родного семинара “Конверсия научных исследований в Беларуси в рамках деятельности МНТЦ” Часть 1, Минск, May 17-22. - Минск: ИФ НАНБ, 1999. - С. 143-148.
10. Ван де Хюлст Г. Рассеяние света малыми частицами - М.: ИЛ, 1961. - 536 с.
11. Борен К., Хафмен Д. Поглощение и рассеяние света малыми частицами - М.: Мир, 1986.- 660 с.
12. Ивлев Л.С., Довгалюк Ю.А. Физика атмосферных аэрозольных систем. — СПб.: НИИХ СПбГУ, 1999. — 194с.
13. Mishchenko, M. I., et al., Modeling phase functions for dustlike tropospheric aerosols using a shape mixture of randomly oriented polydisperse spheroids, J. Geophys. Res. - 1997, 102, 16,831– 16,847
14. Dubovik, O., B. N. Holben, T. Lapyonok, A. Sinyuk, M. I. Mishchenko, P. Yang, and I. Slutsker, Non-spherical aerosol retrieval method employing light scattering by spheroids, Geophys. Res. Lett. - 2002, 29(10), 1415, doi:10.1029/2001GL014506
15. Dubovik, O., et al. (2006), Application of spheroid models to account for aerosol particle nonsphericity in remote sensing of desert dust, J. Geophys. Res. -2006, 111, D11208, doi:10.1029/2005JD006619
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