[1] C. Souprayen,A. Garnier,A. Hertzog et al.. Rayleigh-Mie Doppler wind lidar for atmospheric measurements.Ⅰ. Instrumental setup,validation and first climatological results[J]. Appl. Opt.,1999,38(12):2410-2421
[2] C. Souprayen,A. Garnier,A. Hertzog. Rayleigh-Mie Doppler wind lidar for atmospheric measurements.Ⅱ.Mie scattering effect,theory,and calibration[J]. Appl. Opt.,1999,38(12):2422-2431
[3] C. Nardell,P. B. Hays,J. Pavlich et al.. GroundWinds new hampshire and the LIDAR fest 2000 campaign[C]. SPIE,2002,4484:36-50
[4] S. Businger,B. Moore,C. Nardell et al.. Ground Winds Hawaii:applications for wind profiles derived from an ultra-violet lIDAR in hawaii[C]. SPIE,2002,4546:127-132
[5] B. M. Gentry,H. L. Chen. Performance validation and error analysis for a direct detection molecular Doppler lidar[C]. SPIE,2003,4893:287-294
[6] C. L. Korb,B. M. Gentry,C. Y. Wena et al.. Edge technique:theory and application to the lidar measurement of atmospheric wind[J]. Appl. Opt.,1992,31(21):4202-4213
[7] G. J. Sloggett. Fringe broadening in Fabry-Perot interferometers[J]. Appl. Opt.,1984,23(14):2427-2432
[8] J. A. Mckay. Modeling of direct detection Doppler wind lidar.1.The edge technique[J]. Appl. Opt.,1998,37(27):6480-6486
[9] C. Flesia,C. Korb. Theory of the double-edge molecular technique for Doppler lidar wind measurement[J]. Appl. Opt.,1999,38(3):432-440