A Lidar and Backscatter Sonde Measurement Campaign at Table Mountain during February–March 1997: Observations of Cirrus Clouds
暂无分享,去创建一个
Otto Schrems | J. M. Rosen | Norman T. Kjome | I. S. McDermid | T. J. McGee | G. Beyerle | D. A. Haner | M. R. Gross | H.-J. Schäfer
[1] T. Mcgee,et al. UARS Ozone and Temperature Validation by GSFC Lidar During UARS Correlative Measurement Campaigns (1992 – 1995) , 1997 .
[2] W. Steinbrecht,et al. Results of the Ny-Ålesund Ozone Measurements Intercomparison NAOMI , 1998 .
[3] K Sassen,et al. Lidar depolarization from multiple scattering in marine stratus clouds. , 1986, Applied optics.
[5] A. C. Dilley,et al. Remote Sounding of High Clouds. Part VI: Optical Properties of Midlatitude and Tropical Cirrus , 1987 .
[6] Larry W. Thomason,et al. Heterogeneous chlorine chemistry in the tropopause region , 1997 .
[7] Gérard Mégie,et al. Laser Remote Sensing: Fundamentals and Applications , 1985 .
[8] Atmospheric Raman depolarization-ratio measurements. , 1994, Applied optics.
[9] A. T. Young. Revised depolarization corrections for atmospheric extinction. , 1980, Applied optics.
[10] A. Ansmann,et al. Independent measurement of extinction and backscatter profiles in cirrus clouds by using a combined Raman elastic-backscatter lidar. , 1992, Applied optics.
[11] E. Eloranta. Practical model for the calculation of multiply scattered lidar returns. , 1993, Applied optics.
[12] Michael A. Malcolm,et al. Computer methods for mathematical computations , 1977 .
[13] S. Solomon,et al. The potential of cirrus clouds for heterogeneous chlorine activation , 1996 .
[14] K. Liou. Influence of Cirrus Clouds on Weather and Climate Processes: A Global Perspective , 1986 .
[15] Albert Ansmann,et al. Unexpectedly low ozone concentration in midlatitude tropospheric ice clouds: A case study , 1996 .
[16] Michael K. Griffin,et al. Optical scattering and microphysical properties of subvisual cirrus clouds, and climatic implications , 1989 .
[17] Georg Beyerle,et al. Shipborne measurements with a modular multipurpose mobile lidar system for tropospheric and stratospheric aerosol observations , 1997, Other Conferences.
[18] J. Barnett,et al. Zonal mean temperature, pressure, zonal wind and geopotential height as functions of latitude , 1990 .
[19] T. D. Walsh,et al. Results from the Jet Propulsion Laboratory stratospheric ozone lidar during STOIC 1989 , 1995 .
[20] J. Klett. Lidar inversion with variable backscatter/extinction ratios. , 1985, Applied optics.
[21] W. Steen. Absorption and Scattering of Light by Small Particles , 1999 .
[22] Andrew J. Heymsfield,et al. A parameterization of the particle size spectrum of ice clouds in terms of the ambient temperature and the ice water content , 1984 .
[23] J. Rosen,et al. Backscattersonde: a new instrument for atmospheric aerosol research. , 1991, Applied optics.
[24] G. S. Kent,et al. Tropical high cloud characteristics derived from SAGE II extinction measurements , 1994 .
[25] Optical and microphysical properties of a cold cirrus cloud : Evidence for regions of small ice particles. , 1989 .
[26] H. Chepfer,et al. Microphysical and Optical Properties of Cirrus and Contrails: Cloud Field Study on 13 October 1989 , 1996 .
[27] Robert J. Curran,et al. Thin cirrus clouds - Seasonal distribution over oceans deduced from Nimbus-4 IRIS , 1988 .
[28] Bernd Hofer,et al. Modular and mobile multipurpose lidar system for observation of tropospheric and stratospheric aerosols , 1995, Remote Sensing.
[29] Paul W. Stackhouse,et al. The Relevance of the Microphysical and Radiative Properties of Cirrus Clouds to Climate and Climatic Feedback , 1990 .