[1] [1] Peter von der Gathen. Aerosol extinction and backscatter profiles by means of a multiwavelength Raman lidar: a new method without a priori assumptions［J］. Appl. Opt., 1995, 34(3): 463～466

[2] [2] J. Ackermann. The extinction-to-backscatter ratio of tropospheric aerosols: a numerical study ［J］. J. Atmos. Oceanic Technol., 1998, 15: 1043～1050

[3] [3] Sarah J. Doherty, Theodore L. Anderson, Robert J. Charlson. Measurement of the lidar ratio for atmospheric aerosols with a 180° backscatter nephelometer［J］. Appl. Opt., 1999, 38(9): 1823～1832

[4] [4] Young M. Noh, Young J. Kim, Detlef Müller. Seasonal characteristics of lidar ratios measured with a Raman lidar at Gwangju, Korea in spring and autumn［J］. Atmospheric Environment, 2008, 42: 2208～2224

[5] [5] Wei-Nai Chen, Fu-Jung Tsai, Charles C.-K. Chou et al.. Optical properties of Asian dusts in the free atmosphere measured by Raman lidar at Taipei, Taiwan［J］. Atmospheric Environment, 2007, 41: 7698～7714

[6] [6] Tetsu Sakai, Takashi Shibata, Yasunobu Iwasaka et al.. Case study of Raman lidar measurements of Asian dust events, in 2000 and 2001 at Nagoya and Tsukuba, Japan［J］. Atmospheric Environment, 2002, 36: 5479～5489

[7] [7] G. Pappalardo, A. Amodeo, M. Pandolfi et al.. Aerosol lidar intercomparison in the framework of the EARLINET project 3. Raman lidar algorithm,for aerosol extinction, backscatter, and lidar ratio ［J］. App. Opt., 2004, 43(28): 5370～5385

[8] [8] M. Tesche, A. Ansmann, D. Müller et al.. Particle backscatter, extinction, and lidar ratio profiling with Raman lidar in south and north China ［J］. App. Opt., 2007, 46(25): 6302～6308

[9] [9] Chenbo Xie, Tomoki Nishizawa, Nobuo Sugimoto et al.. Characteristics of aerosol optical properties in pollution and Asian dust episodes over Beijing, China ［J］. Appl. Opt., 2008, 47(27): 4945～4951

[10] [10] Bo Guangyu, Zhong Zhiqing, Liu Bo et al.. Design of optical receiver and aignal detection unit for combined Rayleigh-Raman-Mie lidar［J］. Chinese J. Lasers, 2009, 36(11): 3020～3025

[11] [11] D. N. Whiteman. Application of statistical methods to the determination of slope in lidar data ［J］. Appl. Opt., 1999, 38(15): 3360～3369

[12] [12] Pornsarp Pornsawad, Christine Bckmann, Christoph Ritter et al.. Ill-posed retrieval of aerosol extinction coefficient profiles from Raman lidar data by regularization ［J］. Appl. Opt., 2008, 47(10): 1649～1661

[13] [13] U. Wandinger, A. Ansmann. Experimental determination of the lidar overlap profile with Raman lidar ［J］. Appl. Opt., 2002, 41(3): 511～514

[14] [14] Fei Gao, Xiaoquan Song, Yufeng Wang et al.. Ultraviolet Raman lidar for high-accuracy profiling of aerosol extinction coefficient[J]. Chin. Opt. Lett., 2009, 7(2): 95～97

[15] [15] Boyan Tatarov, Nobuo Sugimoto, Ichiro Matsui et al.. Observations of the seasonal variations of the tropospheric aerosols optical properties by high-spectral-resolution lidar over Tsukuba, Japan ［C］. SPIE, 2005, 5653: 290～297

[16] [16] Francesca Barnaba, Ferdiando De Tomasi, Gian Paolo Gobbi et al.. Extinction versus backscatter relationships for lidar applications at 351 nm: maritime and desert aerosol simulations and comparison with observations ［J］. Atmospheric Research, 2004, 70: 229～259

[17] [17] Christopher Cattrall, John A. Reagan, Kurtis J. Thome. Lidar aerosol ratios at 1 and 10 microns［J］. SPIE, 2003, 5086: 112～120

[18] [18] Wang Xiangchuan, Rao Ruizhong. Lidar ratios for atmospheric aerosol and cloud particles［J］. Chinese J. Lasers, 2005, 32(10): 1321～1324