105 citations as recorded by crossref.

1. Influence of tropical easterly jet on upper tropical cirrus: An observational study from CALIPSO, Aura-MLS, and NCEP/NCAR data S. Das et al.
2. Evaluating CALIPSO's 532 nm lidar ratio selection algorithm using AERONET sun photometers in Brazil F. Lopes et al.
3. Retrieving the composition and concentration of aerosols over the Indo‐Gangetic basin using CALIOP and AERONET data D. Ganguly et al.
4. Assessment of the CALIPSO Lidar 532 nm attenuated backscatter calibration using the NASA LaRC airborne High Spectral Resolution Lidar R. Rogers et al.
5. Derivation of tropospheric aerosol properties from satellite observations D. Tanré
6. Dust semi-direct effects: low-level cloud response to free-tropospheric dust-induced longwave radiation over the North Atlantic Ocean S. Pandey & A. Adebiyi
7. Seasonal Variations of the Relative Optical Air Mass Function for Background Aerosol and Thin Cirrus Clouds at Arctic and Antarctic Sites C. Tomasi et al.
8. Atmospheric aerosol layers over Bangkok Metropolitan Region from CALIPSO observations A. Bridhikitti
9. Ground-, satellite- and simulation-based analysis of a strong dust event over Abastumani, Georgia, during May 2009 P. Kokkalis et al.
10. Using Lidar and Historical Similar Meteorological Fields to Evaluate the Impact of Anthropogenic Control on Dust Weather During COVID-19 B. Chen et al.
11. Distribution Characteristics of Cloud Types and Cloud Phases over China and Their Relationship with Cloud Temperature H. Cai et al.
12. Background noise model of spaceborne photon-counting lidars over oceans and aerosol optical depth retrieval from ICESat-2 noise data J. Yang et al.
13. Role of deep convection on the spatial asymmetry of the UTLS aerosols in the Asian summer monsoon anticyclone region A. Kumar et al.
14. CALIPSO validation using ground-based lidar in Hefei (31.9°N, 117.2°E), China D. Wu et al.
15. Retrieval and evaluation of tropospheric-aerosol extinction profiles using multi-axis differential optical absorption spectroscopy (MAX-DOAS) measurements over Athens, Greece M. Gratsea et al.
16. Comparison of CALIOP level 2 aerosol subtypes to aerosol types derived from AERONET inversion data T. Mielonen et al.
17. Intercomparison of CALIOP, MODIS, and AERONET aerosol optical depth over China during the past decade C. Liu et al.
18. Aerosol Direct Radiative Forcing by Three Dimensional Observations from Passive- and Active- Satellite Sensors K. Lee
19. Cirrus cloud macrophysical and optical properties over North China from CALIOP measurements M. Min et al.
20. A global gridded dataset for cloud vertical structure from combined CloudSat and CALIPSO observations L. Bertrand et al.
21. An evaluation of CALIOP/CALIPSO's aerosol‐above‐cloud detection and retrieval capability over North America M. Kacenelenbogen et al.
22. Construction of Nighttime Cloud Layer Height and Classification of Cloud Types S. Chen et al.
23. Assessment of regional aerosol radiative effects under the SWAAMI campaign – Part 1: Quality-enhanced estimation of columnar aerosol extinction and absorption over the Indian subcontinent H. Pathak et al.
24. Saharan dust infrared optical depth and altitude retrieved from AIRS: a focus over North Atlantic – comparison to MODIS and CALIPSO S. Peyridieu et al.
25. Intercomparisons of cloud-top and cloud-base heights from ground-based Lidar, CloudSat and CALIPSO measurements S. Kim et al.
26. Determination of Cirrus Occurrence and Distribution Characteristics Over the Tibetan Plateau Based on the SWOP Campaign Z. Yang et al.
27. Analysis of global three-dimensional aerosol structure with spectral radiance matching D. Liu et al.
28. Measurement of Planetary Boundary Layer Winds with Scanning Doppler Lidar S. Park et al.
29. The Contribution of the Thin and Dense Cloud to the Microphysical Properties of Ice Clouds over the Tibetan Plateau and Its Surrounding Regions H. Cai et al.
30. Effects of absorbing aerosols in cloudy skies: a satellite study over the Atlantic Ocean K. Peters et al.
31. Retrieval of aerosol optical depth under thin cirrus from MODIS: Application to an ocean algorithm J. Lee et al.
32. Planetary boundary layer height from CALIOP compared to radiosonde over China W. Zhang et al.
33. The 2018 fire season in North America as seen by TROPOMI: aerosol layer height intercomparisons and evaluation of model-derived plume heights D. Griffin et al.
34. An aerosol boomerang: Rapid around‐the‐world transport of smoke from the December 2006 Australian forest fires observed from space R. Dirksen et al.
35. A new method for retrieval of the extinction coefficient of water clouds by using the tail of the CALIOP signal J. Li et al.
36. Dust emissions in the Beijing-Tianjin sandstorm source and their regional differentiation H. Cheng et al.
37. Wintertime characteristics of aerosols over middle Indo-Gangetic Plain: Vertical profile, transport and radiative forcing M. Kumar et al.
38. Comparison of mineral dust layers vertical structures modeled with CHIMERE‐DUST and observed with the CALIOP lidar M. Vuolo et al.
39. The Research Trend of Asian Dust Storm (AD) of Korea and Recent Episode Analysis J. Park et al.
40. Micro Pulse Lidar measurements in coincidence with CALIPSO overpasses: Comparison of tropospheric aerosols over Kattankulathur (12.82oN, 80.04oE) A. Ananthavel et al.
41. Analysis of Desert Dust Outbreaks Over Southern Europe Using CALIOP Data and Ground-Based Measurements C. Marcos et al.
42. On the characterization of descending nature of cirrus clouds over a tropical site, Gadanki N. Manoj Kumar et al.
43. HIRDLS and CALIPSO observations of tropical cirrus S. Massie et al.
44. Eyjafjallajökull ash concentrations derived from both lidar and modeling P. Chazette et al.
45. Characterisation of dust aerosols in the infrared from IASI and comparison with PARASOL, MODIS, MISR, CALIOP, and AERONET observations S. Peyridieu et al.
46. Assessing CALIOP-Derived Planetary Boundary Layer Height Using Ground-Based Lidar M. Kim et al.
47. Airborne verification of CALIPSO products over the Amazon: a case study of daytime observations in a complex atmospheric scene F. Marenco et al.
48. Aerosol and cloud top height information of Envisat MIPAS measurements S. Griessbach et al.
49. Estimation of Possible Primary Biological Particle Emissions and Rupture Events at the Southern Great Plains ARM Site T. Subba et al.
50. Aerosol products by CALIOP at 532nm and by a ground-based Raman lidar at 355nm: Intercomparison methodology M. Perrone et al.
51. Temporal consistency of lidar observations during aerosol transport events in the framework of the ChArMEx/ADRIMED campaign at Minorca in June 2013 P. Chazette et al.
52. Envisioning an Integrated Assessment System and Observation Network for the North Atlantic Ocean L. Coleman et al.
53. The ACOS CO2 retrieval algorithm – Part 1: Description and validation against synthetic observations C. O'Dell et al.
54. Assessment of regional aerosol radiative effects under the SWAAMI campaign – Part 2: Clear-sky direct shortwave radiative forcing using multi-year assimilated data over the Indian subcontinent H. Pathak et al.
55. Insights into the Optical and Physical Characteristics of Low Clouds and Aerosols in Africa from Satellite Lidar Measurements B. Su et al.
56. Lateral Boundary of Cirrus Cloud from CALIPSO Observations Y. Fu et al.
57. A New Application of Unsupervised Learning to Nighttime Sea Fog Detection D. Shin & J. Kim
58. Marine Boundary Layer Heights and Their Longitudinal, Diurnal, and Interseasonal Variability in the Southeastern Pacific Using COSMIC, CALIOP, and Radiosonde Data S. Ho et al.
59. OMI tropospheric NO2 air mass factors over South America: effects of biomass burning aerosols P. Castellanos et al.
60. Puzzling Haze Events in China During the Coronavirus (COVID‐19) Shutdown Y. Chang et al.
61. Validation of CALIPSO space-borne-derived attenuated backscatter coefficient profiles using a ground-based lidar in Athens, Greece R. Mamouri et al.
62. Role of dynamics on the formation and maintenance of the elevated aerosol layer during monsoon season over south-east peninsular India M. Ratnam et al.
63. Study of MPLNET-Derived Aerosol Climatology over Kanpur, India, and Validation of CALIPSO Level 2 Version 3 Backscatter and Extinction Products A. Misra et al.
64. Multi-instrumental observation of an exceptionally strong Saharan dust outbreak over Portugal J. Preißler et al.
65. Three-dimensional distribution of dust aerosols over the Tarim Basin and the Tibet Plateau during 2007–2021 derived from CALIPSO lidar observations J. Li et al.
66. Analysis of the Fog Detection Algorithm of DCD Method with SST and CALIPSO Data D. Shin et al.
67. Development of a cloud-screening algorithm for direct and diffuse AODs from the Skyradiometer Network Y. Choi et al.
68. Accurately detecting nocturnal cloud over land using next-generation geostationary satellite imagery: A case study using advanced Himawari imager data for Australia Y. Qin et al.
69. Synergy between CALIOP and MODIS instruments for aerosol monitoring: application to the Po Valley P. Royer et al.
70. Looking through the haze: evaluating the CALIPSO level 2 aerosol optical depth using airborne high spectral resolution lidar data R. Rogers et al.
71. Aerosol Size Distributions and Optical Properties during Severe Asian Dust Episodes Measured over South Korea in Spring of 2009-2010 D. Kang et al.
72. Observation of new particle formation and growth under cloudy conditions at Gosan Climate Observatory, Korea Y. Kim et al.
73. Vertical structure of aerosols and water vapor over West Africa during the African monsoon dry season S. Kim et al.
74. Geometric and optical properties of cirrus clouds inferred from three-year ground-based lidar and CALIOP measurements over Seoul, Korea Y. Kim et al.
75. Effective lidar ratios of dense dust layers over North Africa derived from the CALIOP measurements Z. Liu et al.
76. Continuous observations from horizontally pointing lidar, weather parameters and PM2.5: a pre-deployment assessment for monitoring radioactive dust in Fukushima, Japan N. Lagrosas et al.
77. Properties of aerosols and formation mechanisms over southern China during the monsoon season W. Chen et al.
78. Aerosol indirect effect on warm clouds over South-East Atlantic, from co-located MODIS and CALIPSO observations L. Costantino & F. Bréon
79. Study on Vertically Distributed Aerosol Optical Characteristics over Saudi Arabia Using CALIPSO Satellite Data Z. Zhang et al.
80. A Synergistic Analysis of Cloud Cover and Vertical Distribution from A-Train and Ground-Based Sensors over the High Arctic Station Eureka from 2006 to 2010 Y. Blanchard et al.
81. Asian dust event observed in Seoul, Korea, during 29–31 May 2008: Analysis of transport and vertical distribution of dust particles from lidar and surface measurements S. Kim et al.
82. Comparison of aerosol optical depth between CALIOP and MODIS‐Aqua for CALIOP aerosol subtypes over the ocean M. Kim et al.
83. A review of the light scattering properties of cirrus A. Baran
84. Assessment of longwave radiative effect of nighttime cirrus based on CloudSat and CALIPSO measurements and single-column radiative transfer simulations L. Yu et al.
85. Detection of dust aerosol by combining CALIPSO active lidar and passive IIR measurements B. Chen et al.
86. Satellite-Derived Aerosol–Cloud Relationships Under Anthropogenic Polluted Conditions of Arabian Sea C. Lima et al.
87. Aerosol properties and associated regional meteorology during winter pollution event at Gosan climate observatory, Korea Y. Kim et al.
88. Vertical distribution characteristics of aerosol particles over the Guanzhong Plain Y. He et al.
89. Quantifying the low bias of CALIPSO's column aerosol optical depth due to undetected aerosol layers M. Kim et al.
90. Optical properties of cirrus transition zones over China detected by CALIOP H. Cai et al.
91. A Multi Linear Regression Model to Derive Dust PM10 in the Sahel Using AERONET Aerosol Optical Depth and CALIOP Aerosol Layer Products J. Léon et al.
92. Nocturnal, seasonal and intra-annual variability of tropospheric aerosols observed using ground-based and space-borne lidars over a tropical location of India P. Prasad et al.
93. Improved Cloud Screening Method for the Analysis of Sky Radiometer Measurements and Application to Asian Dust Detection H. SONG et al.
94. Random Sample Fitting Method to Determine the Planetary Boundary Layer Height Using Satellite-Based Lidar Backscatter Profiles L. Du et al.
95. Impacts of local versus long-range transported aerosols on PM10 concentrations in Seoul, Korea: An estimate based on 11-year PM10 and lidar observations D. Park et al.
96. Calibration method of polarization lidar based on Jones matrix L. Bu et al.
97. Spaceborne lidar retrieved composite and speciated aerosol extinction profiles and optical depths over India: A decade of observations P. Kulkarni & V. Sreekanth
98. Improving Daytime Planetary Boundary Layer Height Determination from CALIOP: Validation Based on Ground-Based Lidar Station Z. Liu et al.
99. Three-Dimensional Distribution of Arctic Aerosols Based on CALIOP Data Y. Sun & L. Chang
100. Volcanic plume height during the 2021 Tajogaite eruption (La Palma) from two complementary monitoring methods – implications for satellite-based products Á. Barreto et al.
101. Aerosol Remote Sensing over Clouds Using A-Train Observations F. Waquet et al.
102. Modeling Asian Dust Storms Using WRF‐Chem During the DRAGON‐Asia Field Campaign in April 2012 K. Kim et al.
103. An accuracy assessment of the CALIOP/CALIPSO version 2/version 3 daytime aerosol extinction product based on a detailed multi-sensor, multi-platform case study M. Kacenelenbogen et al.
104. Comparison of AOD between CALIPSO and MODIS: significant differences over major dust and biomass burning regions X. Ma et al.
105. From the single-scattering properties of ice crystals to climate prediction: A way forward A. Baran