Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations

Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) was launched on April 28, 2006 to study the roles of clouds and aerosols of climate and weather.  It flew in the international "A-Train" constellation for coincident Earth observations until September 13, 2018 when CALIPSO began lowering its orbit from 705 km to 688 km (428 miles) above the Earth to resume formation flying with CloudSatas part of the “C-Train”.  The CALIPSO satellite comprises three instruments, the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP Lidar), the Imaging Infrared Radiometer (IIR), and the Wide Field Camera (WFC).  CALIPSO is a partnership between NASA and the French Space Agency, CNES.

NASA and CNES agreed to end the CALIPSO science mission on August 1, 2023. This mission has been highly successful: designed for a lifetime of 3 years, CALIPSO delivered unprecedented measurements of the vertical structure of the Earth’s atmosphere for 17 years. Fuel reserves are now exhausted, and in its decaying orbit the satellite can no longer generate sufficient power to operate the science instruments. Both agencies thank the international data user community for their on-going interest and support. Over the next two years (through September 2025), the project will continue to refine and document its extensive data products catalog and will notify the community as these products are updated.

Disciplines:   Aerosols Clouds Radiation Budget
Collection Disciplines Spatial Temporal
CAL_IIR_L3_GEWEX_Cloud-Standard-V1-00_V1-00
CALIPSO IIR Lidar Level 3 Global Energy and Water Cycle Experiment (GEWEX) Cloud, Standard V1-00
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2016-12-31
CAL_LID_L3_Cloud_Occurrence-Standard-V1-00_V1-00
CALIPSO Lidar Level 3 Cloud Occurrence Data, Standard V1-00
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2017-01-01
CAL_LID_L3_GEWEX_Cloud-Standard-V1-00_V1-00
CALIPSO Lidar Level 3 Global Energy and Water Cycle Experiment (GEWEX) Cloud, Standard V1-00
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2016-12-31
CAL_LID_L3_Ice_Cloud-Standard-V1-00_V1-00
CALIPSO Lidar Level 3 Ice Cloud Data, Standard V1-00
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2017-01-01
CAL_LID_L3_Stratospheric_APro-Standard-V1-00_V1-00
CALIPSO Lidar Level 3 Stratospheric Aerosol Profiles Standard V1-00
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2020-08-01
CAL_LID_L3_Stratospheric_APro-Standard-V1-01_V1-01
CALIPSO Lidar Level 3 Stratospheric Aerosol Profiles Standard V1-01
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-01
CAL_LID_L3_Tropospheric_APro_AllSky-Standard-V4-20_V4-20
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, All Sky Data, Standard V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2020-08-01
CAL_LID_L3_Tropospheric_APro_AllSky-Standard-V4-21_V4-21
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, All Sky Data, Standard V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-01
CAL_LID_L3_Tropospheric_APro_CloudFree-Standard-V4-20_V4-20
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloud Free Data, Standard V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2020-08-01
CAL_LID_L3_Tropospheric_APro_CloudFree-Standard-V4-21_V4-21
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloud Free Data, Standard V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-01
CAL_LID_L3_Tropospheric_APro_CloudySkyOpaque-Standard-V4-20_V4-20
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloudy Sky Opaque Data, Standard V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2020-08-01
CAL_LID_L3_Tropospheric_APro_CloudySkyOpaque-Standard-V4-21_V4-21
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloudy Sky Opaque Data, Standard V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-01
CAL_LID_L3_Tropospheric_APro_CloudySkyTransparent-Standard-V4-20_V4-20
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloudy Sky Transparent Data, Standard V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-01 - 2020-08-01
CAL_LID_L3_Tropospheric_APro_CloudySkyTransparent-Standard-V4-21_V4-21
CALIPSO Lidar Level 3 Tropospheric Aerosol Profiles, Cloudy Sky Transparent Data, Standard V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-01
Collection Disciplines Spatial Temporal
CAL_IIR_L2_Swath-Standard-V4-20_V4-20
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Swath, V4-20
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_IIR_L2_Swath-Standard-V4-21_V4-21
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Swath, V4-21
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_IIR_L2_Swath-Standard-V4-51_V4-51
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Swath, V4-51
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2023-06-30
CAL_IIR_L2_Track-Standard-V4-20_V4-20
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Track, V4-20
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_IIR_L2_Track-Standard-V4-21_V4-21
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Track, V4-21
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_IIR_L2_Track-Standard-V4-51_V4-51
CALIPSO Infrared Imaging Radiometer (IIR) Level 2 Track, V4-51
Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2023-06-30
CAL_LID_L2_01kmCLay-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 1 km Cloud Layer, V4-20
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_01kmCLay-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 1 km Cloud Layer, V4-21
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_01kmCLay-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 1 km Cloud Layer, V4-51
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_05kmALay-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 5 km Aerosol Layer Data, V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_05kmALay-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 5 km Aerosol Layer Data, V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_05kmALay-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 5 km Aerosol Layer Data, V4-51
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_05kmAPro-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 Aerosol Profile, V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_05kmAPro-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 Aerosol Profile, V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_05kmAPro-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 Aerosol Profile, V4-51
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_05kmCLay-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 5 km Cloud Layer, V4-20
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_05kmCLay-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 5 km Cloud Layer, V4-21
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_05kmCLay-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 5 km Cloud Layer, V4-51
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_05kmCPro-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 Cloud Profile, V4-20
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_05kmCPro-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 Cloud Profile, V4-21
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_05kmCPro-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 Cloud Profile, V4-51
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_05kmMLay-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 5 km Merged Layer, V4-20
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_05kmMLay-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 5 km Merged Layer, V4-21
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_05kmMLay-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 5 km Merged Layer, V4-51
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_333mMLay-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 1/3 km Merged Layer, V4-20
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_333mMLay-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 1/3 km Merged Layer, V4-21
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_333mMLay-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 1/3 km Merged Layer, V4-51
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
CAL_LID_L2_BlowingSnow_Antarctica-Standard-V1-00_V1-00
CALIPSO Lidar Level 2 Blowing Snow - Antarctica, V1-00
Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-06-30
CAL_LID_L2_BlowingSnow_Antarctica-Standard-V1-01_V1-01
CALIPSO Lidar Level 2 Blowing Snow - Antarctica, V1-01
Radiation Budget Spatial Coverage:
(S: -90, N: -50), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_BlowingSnow_Antarctica-Standard-V2-00_V2-00
CALIPSO Lidar Level 2 Blowing Snow - Antarctica, V2-00
Radiation Budget Spatial Coverage:
(S: -90, N: -50), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2023-07-01
CAL_LID_L2_BlowingSnow_Greenland-Standard-V1-00_V1-00
CALIPSO Lidar Level 2 Blowing Snow - Greenland, V1-00
Radiation Budget Spatial Coverage:
(S: 58, N: 58), (W: 90, E: -76)
Temporal Coverage:
2006-06-12 - 2023-07-01
CAL_LID_L2_PSCMask-Standard-V2-00_V2-00
CALIPSO Lidar Level 2 Polar Stratospheric Clouds presents, composition, and optical properties, V2-00
Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2021-04-01
CAL_LID_L2_VFM-Standard-V4-20_V4-20
CALIPSO Lidar Level 2 Vertical Feature Mask (VFM), V4-20
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-07-01
CAL_LID_L2_VFM-Standard-V4-21_V4-21
CALIPSO Lidar Level 2 Vertical Feature Mask (VFM), V4-21
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L2_VFM-Standard-V4-51_V4-51
CALIPSO Lidar Level 2 Vertical Feature Mask (VFM), V4-51
Aerosols,  Clouds Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-11 - 2023-06-30
Collection Disciplines Spatial Temporal
CAL_IIR_L1-Prov-V1-13_V1-13
CALIPSO Imaging Infrared Radiometer Level 1B Radiance data, Provisional V1-13
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
1993-01-01 - 1993-01-01,
2020-10-01 - Present
CAL_IIR_L1-Standard-V2-00_V2-00
CALIPSO Imaging Infrared Radiometer Level 1B Radiance data, Standard V2-00
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Horizontal Resolution Range:
1 km - < 10 km or approximately .01 degree - < .09 degree
Temporal Coverage:
2006-06-12 - Present
Temporal Resolution Range:
1 second - < 1 minute
Temporal Resolution:
8.15 seconds
CAL_IIR_L1-Standard-V2-01_V2-01
CALIPSO Imaging Infrared Radiometer (IIR) Level 1B Radiance, Standard V2-01
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
1993-01-01 - 1993-01-01,
2020-10-01 - Present
CAL_LID_L15-Standard-V1-00_V1-00
CALIPSO Lidar Level 1.5 Profile, V1-00
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2020-08-01
CAL_LID_L15-Standard-V1-01_V1-01
CALIPSO Lidar Level 1.5 Profile, V1-01
Aerosols Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L1-Standard-V4-10_V4-10
CALIPSO Lidar Level 1B profile data, V4-10
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2021-09-06
CAL_LID_L1-Standard-V4-11_V4-11
CALIPSO Lidar Level 1B profile data, V4-11
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2020-07-01 - 2022-01-19
CAL_LID_L1-Standard-V4-51_V4-51
CALIPSO Lidar Level 1B profile data, V4-51
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-12 - 2023-06-30
CAL_WFC_L1_125m-ValStage1-V3-01_V3-01
CALIPSO Wide Field Camera Level 1B 125m Native Science data, Validated Stage 1 V3-01
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-13 - 2011-11-01
CAL_WFC_L1_125m-ValStage1-V3-02_V3-02
CALIPSO Wide Field Camera Level 1B 125m Native Science data, Validated Stage 1 V3-02
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2011-11-01 - 2020-04-10
CAL_WFC_L1_1Km-ValStage1-V3-01_V3-01
CALIPSO Wide Field Camera Level 1B 1 km Native Science data, Validated Stage 1 V3-01
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-13 - 2011-11-01
CAL_WFC_L1_1Km-ValStage1-V3-02_V3-02
CALIPSO Wide Field Camera Level 1B 1 km Native Science data, Validated Stage 1 V3-02
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2011-11-01 - 2020-04-10
CAL_WFC_L1_IIR-ValStage1-V3-01_V3-01
CALIPSO Wide Field Camera Level 1B 1 km Registered Science data, Validated Stage 1 V3-01
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-13 - 2011-11-01
CAL_WFC_L1_IIR-ValStage1-V3-02_V3-02
CALIPSO Wide Field Camera Level 1B 1 km Registered Science data, Validated Stage 1 V3-02
Aerosols,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2011-11-01 - Present
Temporal Resolution:
0.1488 second
Collection Disciplines Spatial Temporal
CAL_LID_L0_PIVB-Standard-V1-00_V1-00
CALIPSO Lidar Level 0 PIVB data
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2016-08-23 - 2023-06-17
CAL_LID_L0-Standard-V1-00_V1-00
CALIPSO Lidar Level 0 data
Aerosols,  Clouds,  Radiation Budget Spatial Coverage:
(S: -90, N: 90), (W: -180, E: 180)
Temporal Coverage:
2006-06-13 - 2023-07-01

CALIPSO Mission Publications

Collow, Allison B.; Colarco, Peter R.; Da Silva, Arlindo M.; Buchard, Virginie; Bian, Huisheng; Chin, Mian; Das, Sampa; Govindaraju, Ravi; Kim, Dongchul; Aquila, Valentina (2024). Benchmarking GOCART-2G in the Goddard Earth Observing System (GEOS).


Sokol, Adam B.; Storelvmo, Trude (2024). The Spatial Heterogeneity of Cloud Phase Observed by Satellite.


Kim, Bo-Ram; Kim, Gyuyeon; Cho, Minjeong; Choi, Yong-Sang; Kim, Jhoon (2024). First results of cloud retrieval from the Geostationary Environmental Monitoring Spectrometer.


Zhang, Zhenxi; Zhou, Wen (2024). Influence of Internal Climate System Forcing on the Relationship Between North Atlantic Tropical Cyclones and Saharan Dust.


Portella, Ben-hur Martins; Barbosa, Henrique De Melo Jorge (2024). Climatology and trends of cirrus geometrical and optical properties in the Amazon region from 7-yr of CALIPSO observations.


Neyestani, Soroush E.; Porter, William C.; Kiely, Laura (2024). Air quality impacts of observationally constrained biomass burning heat flux inputs.


Bresciani, Caroline; Herdies, Dirceu Luis; Figueroa, Silvio Nilo; Buchard, Virginie; Da Silva, Arlindo M.; Jones, Charles; Carvalho, Leila M. V. (2024). The South American Tropopause Aerosol Layer (SATAL).


Sellitto, Pasquale; Belhadji, Redha; Cuesta, Juan; Podglajen, Aurélien; Legras, Bernard (2023). Radiative impacts of the Australian bushfires 2019–2020 – Part 2: Large-scale and in-vortex radiative heating.


Zhao, Zhixin; Wang, Wencai; Wang, Yuwei; Sheng, Lifang; Zhou, Yang; Teng, Shiwen (2023). Reasons for Low Fraction of Arctic Stratospheric Cloud in 2014/2015 Winter.


Boichu, Marie; Grandin, Raphaël; Blarel, Luc; Torres, Benjamin; Derimian, Yevgeny; Goloub, Philippe; Brogniez, Colette; Chiapello, Isabelle; Dubovik, Oleg; Mathurin, Théo; Pascal, Nicolas; Patou, Maximilien; Riedi, Jérôme (2023). Growth and Global Persistence of Stratospheric Sulfate Aerosols From the 2022 Hunga Tonga–Hunga Ha'apai Volcanic Eruption.


Li, Yaowei; Pedersen, Corey; Dykema, John; Vernier, Jean-Paul; Vattioni, Sandro; Pandit, Amit Kumar; Stenke, Andrea; Asher, Elizabeth; Thornberry, Troy; Todt, Michael A.; Bui, Thao Paul; Dean-Day, Jonathan; Keutsch, Frank N. (2023). In situ measurements of perturbations to stratospheric aerosol and modeled ozone and radiative impacts following the 2021 La Soufrière eruption.


Lu, Xin; Mao, Feiyue; Rosenfeld, Daniel; Zhu, Yannian; Zang, Lin; Pan, Zengxin; Gong, Wei (2023). The Temperature Control of Cloud Adiabatic Fraction and Coverage.


Karlsson, Karl-Göran; Stengel, Martin; Meirink, Jan Fokke; Riihelä, Aku; Trentmann, Jörg; Akkermans, Tom; Stein, Diana; Devasthale, Abhay; Eliasson, Salomon; Johansson, Erik; Håkansson, Nina; Solodovnik, Irina; Benas, Nikos; Clerbaux, Nicolas; Selbach, Nathalie; Schröder, Marc; Hollmann, Rainer (2023). CLARA-A3: The third edition of the AVHRR-based CM SAF climate data record on clouds, radiation and surface albedo covering the period 1979 to 2023.


Saito, Masanori; Yang, Ping (2023). Quantifying the Impact of the Surface Roughness of Hexagonal Ice Crystals on Backscattering Properties for Lidar‐Based Remote Sensing Applications.


Sato, Kaori; Okamoto, Hajime (2023). Global Analysis of Height‐Resolved Ice Particle Categories From Spaceborne Lidar.


Choudhury, Goutam; Tesche, Matthias (2023). A first global height-resolved cloud condensation nuclei data set derived from spaceborne lidar measurements.


Jänicke, Lena Katharina; Preusker, Rene; Docter, Nicole; Fischer, Jürgen (2023). Estimation of Aerosol Layer Height from OLCI Measurements in the O2A-Absorption Band over Oceans.


Van Zadelhoff, Gerd-Jan; Donovan, David P.; Wang, Ping (2023). Detection of aerosol and cloud features for the EarthCARE atmospheric lidar (ATLID): the ATLID FeatureMask (A-FM) product.


Zeng, Yi; Wang, Minghuai; Zhao, Chun; Zhu, Yannian; Rosenfeld, Daniel; Huang, Kang‐En (2023). Extremely High Concentrations of Ice Particles in East Asian Dust‐Infused Baroclinic Storm (DIBS) Cirrus Shield: Dominant Role of Dust Ice Nucleation Effect.


Mayer, Johanna; Ewald, Florian; Bugliaro, Luca; Voigt, Christiane (2023). Cloud Top Thermodynamic Phase from Synergistic Lidar-Radar Cloud Products from Polar Orbiting Satellites: Implications for Observations from Geostationary Satellites.


Bonazzola, Marine; Chepfer, Hélène; Ma, Po-Lun; Quaas, Johannes; Winker, David M.; Feofilov, Artem; Schutgens, Nick (2023). Incorporation of aerosol into the COSPv2 satellite lidar simulator for climate model evaluation.


Shi, Jianjun; Yang, Shizhi; Cui, Shengcheng; Luo, Tao; Li, Xuebin; Lu, Wenqiang; Han, Lu (2023). Dust Detection Over East Asia From Multispectral and Multi‐Temporal Himawari‐8/AHI Thermal Infrared Observations.


Bourassa, Adam E.; Zawada, Daniel J.; Rieger, Landon A.; Warnock, Taran W.; Toohey, Matthew; Degenstein, Doug A. (2023). Tomographic Retrievals of Hunga Tonga‐Hunga Ha'apai Volcanic Aerosol.


Dasarathy, S.; Russell, L. M.; Rodier, S. D.; Bowman, J. S. (2023). Wind‐Driven and Seasonal Effects on Marine Aerosol Production in the Bellingshausen Sea, Antarctica.


Tackett, Jason L.; Kar, Jayanta; Vaughan, Mark A.; Getzewich, Brian J.; Kim, Man-Hae; Vernier, Jean-Paul; Omar, Ali H.; Magill, Brian E.; Pitts, Michael C.; Winker, David M. (2023). The CALIPSO version 4.5 stratospheric aerosol subtyping algorithm.


Cvetkovic, Bojan; Dagsson-Waldhauserová, Pavla; Petkovic, Slavko; Arnalds, Ólafur; Madonna, Fabio; Proestakis, Emmanouil; Gkikas, Antonis; Vukovic Vimic, Ana; Pejanovic, Goran; Rosoldi, Marco; Ceburnis, Darius; Amiridis, Vassilis; Lisá, Lenka; Nickovic, Slobodan; Nikolic, Jugoslav (2022). Fully Dynamic High–Resolution Model for Dispersion of Icelandic Airborne Mineral Dust.


Khaykin, Sergey; Podglajen, Aurelien; Ploeger, Felix; Grooß, Jens-Uwe; Tence, Florent; Bekki, Slimane; Khlopenkov, Konstantin; Bedka, Kristopher; Rieger, Landon; Baron, Alexandre; Godin-Beekmann, Sophie; Legras, Bernard; Sellitto, Pasquale; Sakai, Tetsu; Barnes, John; Uchino, Osamu; Morino, Isamu; Nagai, Tomohiro; Wing, Robin; Baumgarten, Gerd; Gerding, Michael; Duflot, Valentin; Payen, Guillaume; Jumelet, Julien; Querel, Richard; Liley, Ben; Bourassa, Adam; Clouser, Benjamin; Feofilov, Artem; Hauchecorne, Alain; Ravetta, François (2022). Global perturbation of stratospheric water and aerosol burden by Hunga eruption.


Mishra, Manoj Kumar; Hoffmann, Lars; Thapliyal, Pradeep Kumar (2022). Investigations on the Global Spread of the Hunga Tonga-Hunga Ha’apai Volcanic Eruption Using Space-Based Observations and Lagrangian Transport Simulations. https://doi.org/10.3390/atmos13122055


Sellitto, P.; Podglajen, A.; Belhadji, R.; Boichu, M.; Carboni, E.; Cuesta, J.; Duchamp, C.; Kloss, C.; Siddans, R.; Bègue, N.; Blarel, L.; Jegou, F.; Khaykin, S.; Renard, J. -B.; Legras, B. (2022). The unexpected radiative impact of the Hunga Tonga eruption of 15th January 2022.


Liu, Yuelin; Shi, Guangming; Du, Yunsong; Lyu, Mengyao; Zhang, Wei; Yang, Fumo (2022). The Role of Cloud in the Transportation of Dust into Basin Area: A Case Study in Sichuan Basin, Southwesten China.


Yang, Taiping; Wang, Ping; Si, Fuqi; Zhou, Haijin; Zhao, Minjie; Luo, Yuhan; Chang, Zhen; Xiang, Yan; Liu, Jianguo (2022). Cloud parameter retrieval for Environmental trace gases Monitoring Instrument (EMI) using the O2-O2 absorption band.


Smith, Sarah Elise; Ting, Mingfang; Wu, Yutian; Zheng, Cheng (2022). Beyond the lockdowns: satellite observations of aerosol optical depth through 2020, the first year of the COVID-19 pandemic.


Peterson, David A.; Fromm, Michael D.; McRae, Richard H. D.; Campbell, James R.; Hyer, Edward J.; Taha, Ghassan; Camacho, Christopher P.; Kablick, George P.; Schmidt, Chris C.; DeLand, Matthew T. (2022). Australia’s Black Summer pyrocumulonimbus super outbreak reveals potential for increasingly extreme stratospheric smoke events. npj Clim. Atmos. Sci, (4), https://doi.org/10.1038/s41612-021-00192-9


Kumar, G.; Madhavan, B. L.; Sahu, L. K.; Kumar, Y. B.; Vernier, J.‐P.; Liu, H.; Zhang, B.; Pandit, A. K.; Manchanda, R. K.; Dadhwal, V. K.; Sinha, P. R. (2022). Multi‐Year CALIPSO Observations of Ubiquitous Elevated Aerosol Layer in the Free Troposphere Over South Asia: Sources and Formation Mechanism.


Tritscher, Ines; Pitts, Michael C.; Poole, Lamont R.; Alexander, Simon P.; Cairo, Francesco; Chipperfield, Martyn P.; Grooß, Jens‐Uwe; Höpfner, Michael; Lambert, Alyn; Luo, Beiping; Molleker, Sergey; Orr, Andrew; Salawitch, Ross; Snels, Marcel; Spang, Reinhold; Woiwode, Wolfgang; Peter, Thomas (2022). Polar Stratospheric Clouds: Satellite Observations, Processes, and Role in Ozone Depletion. Rev. Geophys, 59 (2), https://doi.org/10.1029/2020RG000702


Jin, Yinbao; Ma, Yingying; Zhang, Ming; Liu, Yiming; Lu, Xiao; Liu, Boming; Jin, Shikuan; Shen, Ao; Zhang, Juan; Fan, Qi (2022). Aerosol Characteristics during the COVID-19 Lockdown in China: Optical Properties, Vertical Distribution, and Potential Source.


Li, Wei; Wang, Yuxuan (2022). Reduced surface fine dust under droughts over the southeastern United States during summertime: observations and CMIP6 model simulations.


Duc, Hiep Nguyen; Chang, Lisa Tzu-Chi; Azzi, Merched; Jiang, Ningbo (2022). Smoke aerosols dispersion and transport from the 2013 New South Wales (Australia) bushfires.


Li, Yue; Baum, Bryan A.; Heidinger, Andrew K.; Menzel, W. Paul; Weisz, Elisabeth (2022). Improvement in cloud retrievals from VIIRS through the use of infrared absorption channels constructed from VIIRS+CrIS data fusion.


Yang, Xingchuan; Zhao, Chuanfeng; Yang, Yikun; Yan, Xing; Fan, Hao (2022). Statistical aerosol properties associated with fire events from 2002 to 2019 and a case analysis in 2019 over Australia.


Lee, Logan; Zhang, Jianglong; Reid, Jeffrey S.; Yorks, John E. (2022). Investigation of CATS-ISS aerosol products and application toward global diurnal variation of aerosols.


Liu, Dong; Chen, Sijie; Cheng, Chonghui; Barker, Howard W.; Dong, Changzhe; Ke, Ju; Wang, Shuaibo; Zheng, Zhuofan (2022). Analysis of global three-dimensional aerosol structure with spectral radiance matching.


Shi, Yifan; Liu, Boming; Chen, Shihua; Gong, Wei; Ma, Yingying; Zhang, Ming; Jin, Shikuan; Jin, Yinbao (2022). Characteristics of aerosol within the nocturnal residual layer and its effects on surface PM2.5 over China.


Gomez-Martin, Laura; Toledo, Daniel; Prados-Roman, Cristina; Adame, Jose Antonio; Ochoa, Hector; Yela, Margarita (2022). Polar Stratospheric Clouds Detection at Belgrano II Antarctic Station with Visible Ground-Based Spectroscopic Measurements.


Toth, Travis D.; Zhang, Jianglong; Reid, Jeffrey S.; Vaughan, Mark A. (2022). A bulk-mass-modeling-based method for retrieving particulate matter pollution using CALIOP observations.


Sandvik, Oscar S.; Friberg, Johan; Sporre, Moa K.; Martinsson, Bengt G. (2022). Methodology to obtain highly resolved SO2 vertical profiles for representation of volcanic emissions in climate models.


Zhang, Yanda; Cai, Yi-Jhen; Yu, Fangqun; Luo, Gan; Chou, Charles C.K. (2022). Seasonal Variations and Long-term Trend of Mineral Dust Aerosols over the Taiwan Region.


Tsekeri, Alexandra; Amiridis, Vassilis; Marenco, Franco; Nenes, Athanasios; Marinou, Eleni; Solomos, Stavros; Rosenberg, Phil; Trembath, Jamie; Nott, Graeme J.; Allan, James; Le Breton, Michael; Bacak, Asan; Coe, Hugh; Percival, Carl; Mihalopoulos, Nikolaos (2022). Profiling aerosol optical, microphysical and hygroscopic properties in ambient conditions by combining in situ and remote sensing.


Taha, Ghassan; Loughman, Robert; Zhu, Tong; Thomason, Larry; Kar, Jayanta; Rieger, Landon; Bourassa, Adam (2022). OMPS LP Version 2.0 multi-wavelength aerosol extinction coefficient retrieval algorithm.


Gkikas, Antonis; Basart, Sara; Hatzianastassiou, Nikos; Marinou, Eleni; Amiridis, Vassilis; Kazadzis, Stelios; Pey, Jorge; Querol, Xavier; Jorba, Oriol; Gassó, Santiago; Baldasano, José Maria (2021). Mediterranean intense desert dust outbreaks and their verticalstructure based on remote sensing data.


Iguchi, Takamichi; Matsui, Toshihisa; Tao, Zhining; Kim, Dongchul; Ichoku, Charles M.; Ellison, Luke; Wang, Jun (2021). NU-WRF Aerosol Transport Simulation over West Africa: Effects of Biomass Burning on Smoke Aerosol Distribution.


Clarisse, L.; Clerbaux, C.; Franco, B.; Hadji-Lazaro, J.; Whitburn, S.; Kopp, A. K.; Hurtmans, D.; Coheur, P.-F. (2021). A Decadal Data Set of Global Atmospheric Dust Retrieved From IASI Satellite Measurements.


Filioglou, M.; Mielonen, T.; Balis, D.; Giannakaki, E.; Arola, A.; Kokkola, H.; Komppula, M.; Romakkaniemi, S. (2021). Aerosol Effect on the Cloud Phase of Low‐Level Clouds Over the Arctic.


Ocko, Ilissa B.; Ginoux, Paul A. (2021). Comparing multiple model-derived aerosol optical properties to spatially collocated ground-based and satellite measurements.


Vaughan, Mark; Garnier, Anne; Josset, Damien; Avery, Melody; Lee, Kam-Pui; Liu, Zhaoyan; Hunt, William; Pelon, Jacques; Hu, Yongxiang; Burton, Sharon; Hair, Johnathan; Tackett, Jason L.; Getzewich, Brian; Kar, Jayanta; Rodier, Sharon (2021). CALIPSO lidar calibration at 1064 nm: version 4 algorithm.


Khaykin, Sergey M.; Moyer, Elizabeth; Krämer, Martina; Clouser, Benjamin; Bucci, Silvia; Legras, Bernard; Lykov, Alexey; Afchine, Armin; Cairo, Francesco; Formanyuk, Ivan; Mitev, Valentin; Matthey, Renaud; Rolf, Christian; Singer, Clare E.; Spelten, Nicole; Volkov, Vasiliy; Yushkov, Vladimir; Stroh, Fred (2021). Persistence of moist plumes from overshooting convection in the Asian monsoon anticyclone.


Garnier, Anne; Pelon, Jacques; Pascal, Nicolas; Vaughan, Mark A.; Dubuisson, Philippe; Yang, Ping; Mitchell, David L. (2021). Version 4 CALIPSO Imaging Infrared Radiometer ice and liquid water cloud microphysical properties – Part II: Results over oceans.


Nickovic, Slobodan; Cvetkovic, Bojan; Petković, Slavko; Amiridis, Vassilis; Pejanović, Goran; Solomos, Stavros; Marinou, Eleni; Nikolic, Jugoslav (2021). Cloud icing by mineral dust and impacts to aviation safety.


Yang, Yikun; Zhao, Chuanfeng; Wang, Quan; Cong, Zhiyuan; Yang, Xingchuan; Fan, Hao (2021). Aerosol characteristics at the three poles of the Earth as characterized by Cloud–Aerosol Lidar and Infrared Pathfinder Satellite Observations.


Avery, Melody A.; Ryan, Robert A.; Getzewich, Brian J.; Vaughan, Mark A.; Winker, David M.; Hu, Yongxiang; Garnier, Anne; Pelon, Jacques; Verhappen, Carolus A. (2021). CALIOP V4 cloud thermodynamic phase assignment and the impact of near-nadir viewing angles.


Pauli, Eva; Cermak, Jan; Teuling, Adriaan J. (2021). Enhanced Nighttime Fog and Low Stratus Occurrence Over the Landes Forest, France.


Niu, Hewen; Kang, Shichang; Wang, Hailong; Du, Jiankuo; Pu, Tao; Zhang, Guotao; Lu, Xixi; Yan, Xingguo; Wang, Shijin; Shi, Xiaofei (2021). Light-absorbing impurities accelerating glacial melting in southeastern Tibetan Plateau.


Holz, Robert E.; Platnick, Steven; Meyer, Kerry; Vaughan, Mark; Heidinger, Andrew; Yang, Ping; Wind, Gala; Dutcher, Steven; Ackerman, Steven; Amarasinghe, Nandana; Nagle, Fredrick; Wang, Chenxi (2021). Resolving ice cloud optical thickness biases between CALIOP and MODIS using infrared retrievals.


Kacenelenbogen, Meloë S.; Vaughan, Mark A.; Redemann, Jens; Young, Stuart A.; Liu, Zhaoyan; Hu, Yongxiang; Omar, Ali H.; LeBlanc, Samuel; Shinozuka, Yohei; Livingston, John; Zhang, Qin; Powell, Kathleen A. (2021). Estimations of global shortwave direct aerosol radiative effects above opaque water clouds using a combination of A-Train satellite sensors.


Patel, Mohin; Chiao, Sen; Tan, Qian (2021). An Observational Study of Aerosols and Tropical Cyclones over the Eastern Atlantic Ocean Basin for Recent Hurricane Seasons.


Boone, C. D.; Bernath, P. F.; Fromm, M. D. (2021). Pyrocumulonimbus Stratospheric Plume Injections Measured by the ACE‐FTS.


Painemal, David; Clayton, Marian; Ferrare, Richard; Burton, Sharon; Josset, Damien; Vaughan, Mark (2021). Novel aerosol extinction coefficients and lidar ratios over the ocean from CALIPSO–CloudSat: evaluation and global statistics.


Solomos, Stavros; Ansmann, Albert; Mamouri, Rodanthi-Elisavet; Binietoglou, Ioannis; Patlakas, Platon; Marinou, Eleni; Amiridis, Vassilis (2021). Remote sensing and modelling analysis of the extreme dust storm hitting the Middle East and eastern Mediterranean in September 2015.


Khaykin, Sergey; Legras, Bernard; Bucci, Silvia; Sellitto, Pasquale; Isaksen, Lars; Tencé, Florent; Bekki, Slimane; Bourassa, Adam; Rieger, Landon; Zawada, Daniel; Jumelet, Julien; Godin-Beekmann, Sophie (2021). The 2019/20 Australian wildfires generated a persistent smoke-charged vortex rising up to 35 km altitude.


Ungermann, Jörn; Bartolome, Irene; Griessbach, Sabine; Spang, Reinhold; Rolf, Christian; Krämer, Martina; Höpfner, Michael; Riese, Martin (2021). Cirrus cloud shape detection by tomographic extinction retrievals from infrared limb emission sounder measurements.


Lu, Xiaomei; Hu, Yongxiang; Vaughan, Mark; Rodier, Sharon; Trepte, Chip; Lucker, Patricia; Omar, Ali (2021). New attenuated backscatter profile by removing the CALIOP receiver's transient response.


Saint‐Lu, Marion; Bony, Sandrine; Dufresne, Jean‐Louis (2021). Observational Evidence for a Stability Iris Effect in the Tropics.


Lu, Xiaomei; Hu, Yongxiang; Yang, Yuekui; Neumann, Thomas; Omar, Ali; Baize, Rosemary; Vaughan, Mark; Rodier, Sharon; Getzewich, Brian; Lucker, Patricia; Trepte, Charles; Hostetler, Chris; Winker, David (2021). New Ocean Subsurface Optical Properties From Space Lidars: CALIOP/CALIPSO and ATLAS/ICESat‐2.


Vaillant de Guélis, Thibault; Vaughan, Mark A.; Winker, David M.; Liu, Zhaoyan (2021). Two-dimensional and multi-channel feature detection algorithm for the CALIPSO lidar measurements.


Foth, Andreas; Kanitz, Thomas; Engelmann, Ronny; Baars, Holger; Radenz, Martin; Seifert, Patric; Barja, Boris; Fromm, Michael; Kalesse, Heike; Ansmann, Albert (2021). Vertical aerosol distribution in the southern hemispheric midlatitudes as observed with lidar in Punta Arenas, Chile (53.2° S and 70.9° W), during ALPACA.


Hooghiem, Joram J. D.; Popa, Maria Elena; Röckmann, Thomas; Grooß, Jens-Uwe; Tritscher, Ines; Müller, Rolf; Kivi, Rigel; Chen, Huilin (2021). Wildfire smoke in the lower stratosphere identified by in situ CO observations.


Yang, Xingchuan; Zhao, Chuanfeng; Yang, Yikun; Fan, Hao (2020). Long-term multi-source data analysis about the characteristics of aerosol optical properties and types over Australia.


Palm, Stephen P.; Kayetha, Vinay; Yang, Yuekui (2020). Toward a Satellite‐Derived Climatology of Blowing Snow Over Antarctica.


Takegawa, N.; Seto, T.; Moteki, N.; Koike, M.; Oshima, N.; Adachi, K.; Kita, K.; Takami, A.; Kondo, Y. (2020). Enhanced New Particle Formation Above the Marine Boundary Layer Over the Yellow Sea: Potential Impacts on Cloud Condensation Nuclei.


Yu, Hongbin; Tan, Qian; Zhou, Lillian; Zhou, Yaping; Bian, Huisheng; Chin, Mian; Ryder, Claire L.; Levy, Robert C.; Pradhan, Yaswant; Shi, Yingxi; Song, Qianqian; Zhang, Zhibo; Colarco, Peter R.; Kim, Dongchul; Remer, Lorraine A.; Yuan, Tianle; Mayol-Bracero, Olga; Holben, Brent N. (2020). Observation and modeling of the historic “Godzilla” African dust intrusion into the Caribbean Basin and the southern US in June 2020.


Woiwode, Wolfgang; Höpfner, Michael; Bi, Lei; Pitts, Michael C.; Poole, Lamont R.; Oelhaf, Hermann; Molleker, Sergej; Borrmann, Stephan; Klingebiel, Marcus; Belyaev, Gennady; Ebersoldt, Andreas; Griessbach, Sabine; Grooß, Jens-Uwe; Gulde, Thomas; Krämer, Martina; Maucher, Guido; Piesch, Christof; Rolf, Christian; Sartorius, Christian; Spang, Reinhold; Orphal, Johannes (2020). Spectroscopic evidence of large aspherical β-NATparticles involved in denitrification in the December 2011 Arcticstratosphere.


Gasteiger, Josef; Groß, Silke; Sauer, Daniel; Haarig, Moritz; Ansmann, Albert; Weinzierl, Bernadett (2020). Particle settling and vertical mixing in the Saharan Air Layer as seen from an integrated model, lidar, and in situ perspective.


Ansmann, Albert; Ohneiser, Kevin; Mamouri, Rodanthi-Elisavet; Knopf, Daniel A.; Veselovskii, Igor; Baars, Holger; Engelmann, Ronny; Foth, Andreas; Jimenez, Cristofer; Seifert, Patric; Barja, Boris (2020). Tropospheric and stratospheric wildfire smoke profiling with lidar: mass, surface area, CCN, and INP retrieval.


Kotarba, Andrzej Z.; Huu, Z˙aneta Nguyen (2020). Accuracy of Cirrus Detection by Surface-Based Human Observers.


Jing, Feng; Singh, Ramesh P. (2020). Optical properties of dust and crop burning emissions over India using ground and satellite data.


Karlsson, Karl-Göran; Johansson, Erik; Håkansson, Nina; Sedlar, Joseph; Eliasson, Salomon (2020). Probabilistic Cloud Masking for the Generation of CM SAF Cloud Climate Data Records from AVHRR and SEVIRI Sensors.


Marinou, Eleni; Tesche, Matthias; Nenes, Athanasios; Ansmann, Albert; Schrod, Jann; Mamali, Dimitra; Tsekeri, Alexandra; Pikridas, Michael; Baars, Holger; Engelmann, Ronny; Voudouri, Kalliopi-Artemis; Solomos, Stavros; Sciare, Jean; Groß, Silke; Ewald, Florian; Amiridis, Vassilis (2020). Retrieval of ice-nucleating particle concentrations from lidar observations and comparison with UAV in situ measurements.


Choudhury, Goutam; Ansmann, Albert; Tesche, Matthias (2020). Evaluation of aerosol number concentrations from CALIPSO with ATom airborne in situ measurements.


Marinou, Eleni; Amiridis, Vassilis; Binietoglou, Ioannis; Tsikerdekis, Athanasios; Solomos, Stavros; Proestakis, Emannouil; Konsta, Dimitra; Papagiannopoulos, Nikolaos; Tsekeri, Alexandra; Vlastou, Georgia; Zanis, Prodromos; Balis, Dimitrios; Wandinger, Ulla; Ansmann, Albert (2020). Three-dimensional evolution of Saharan dust transport towards Europe based on a 9-year EARLINET-optimized CALIPSO dataset.


Gui, Ke; Yao, Wenrui; Che, Huizheng; An, Linchang; Zheng, Yu; Li, Lei; Zhao, Hujia; Zhang, Lei; Zhong, Junting; Wang, Yaqiang; Zhang, Xiaoye (2020). Record-breaking dust loading during two mega dust storm events over northern China in March 2021: aerosol optical and radiative properties and meteorological drivers.


Getzewich, Brian J.; Vaughan, Mark A.; Hunt, William H.; Avery, Melody A.; Powell, Kathleen A.; Tackett, Jason L.; Winker, David M.; Kar, Jayanta; Lee, Kam-Pui; Toth, Travis D. (2020). CALIPSO lidar calibration at 532 nm: version 4 daytime algorithm.


Huang, Jiayue; Jaeglé, Lyatt; Shah, Viral (2020). Using CALIOP to constrain blowing snow emissions of sea salt aerosols over Arctic and Antarctic sea ice.


Gui, Lu; Tao, Minghui; Wang, Yi; Wang, Lunche; Chen, Liangfu; Lin, Changqing; Tao, Jinhua; Wang, Jun; Yu, Chao (2020). Climatology of aerosol types and their vertical distribution over East Asia based on CALIPSO lidar measurements. Int. J. Climatol, https://doi.org/10.1002/joc.7599


Ma, Po-Lun; Rasch, Philip J.; Chepfer, Hélène; Winker, David M.; Ghan, Steven J. (2020). Observational constraint on cloud susceptibility weakened by aerosol retrieval limitations.


Behrenfeld, Michael J.; Gaube, Peter; Della Penna, Alice; O’Malley, Robert T.; Burt, William J.; Hu, Yongxiang; Bontempi, Paula S.; Steinberg, Deborah K.; Boss, Emmanuel S.; Siegel, David A.; Hostetler, Chris A.; Tortell, Philippe D.; Doney, Scott C. (2020). Global satellite-observed daily vertical migrations of ocean animals. Nature, 576 (7786), 257. https://doi.org/10.1038/s41586-019-1796-9


Gossart, Alexandra; Palm, Stephen P.; Souverijns, Niels; Lenaerts, Jan T. M.; Gorodetskaya, Irina V.; Lhermitte, Stef; van Lipzig, Nicole P. M. (2020). Importance of Blowing Snow During Cloudy Conditions in East Antarctica: Comparison of Ground-Based and Space-Borne Retrievals Over Ice-Shelf and Mountain Regions. Front. Earth Sci, (8), https://doi.org/10.3389/feart.2020.00240


Philipp, Daniel; Stengel, Martin; Ahrens, Bodo (2020). Analyzing the Arctic Feedback Mechanism between Sea Ice and Low-Level Clouds Using 34 Years of Satellite Observations.


Bolot, Maximilien; Fueglistaler, Stephan (2020). Tropical Water Fluxes Dominated by Deep Convection Up to Near Tropopause Levels.


Mitchell, David L.; Garnier, Anne; Pelon, Jacques; Erfani, Ehsan (2020). CALIPSO (IIR–CALIOP) retrievals of cirrus cloud ice-particle concentrations.


Lu, Xin; Mao, Feiyue; Rosenfeld, Daniel; Zhu, Yannian; Pan, Zengxin; Gong, Wei (2019). Satellite retrieval of cloud base height and geometric thickness of low-level cloud based on CALIPSO.


Lu, Xiaomei; Hu, Yongxiang; Omar, Ali; Baize, Rosemary; Vaughan, Mark; Rodier, Sharon; Kar, Jayanta; Getzewich, Brian; Lucker, Patricia; Trepte, Charles; Hostetler, Chris; Winker, David (2019). Global Ocean Studies from CALIOP/CALIPSO by Removing Polarization Crosstalk Effects.


Walter, Carolin; Freitas, Saulo R.; Kottmeier, Christoph; Kraut, Isabel; Rieger, Daniel; Vogel, Heike; Vogel, Bernhard (2019). The importance of plume rise on the concentrations and atmospheric impacts of biomass burning aerosol.


Lambert, Alyn; Santee, Michelle L.; Livesey, Nathaniel J. (2019). Interannual variations of early winter Antarctic polar stratospheric cloud formation and nitric acid observed by CALIOP and MLS.


Li, Wenzhao; El-Askary, Hesham; Qurban, Mohamed; Proestakis, Emmanouil; Garay, Michael; Kalashnikova, Olga; Amiridis, Vassilis; Gkikas, Antonis; Marinou, Eleni; Piechota, Thomas; Manikandan, K. (2019). An Assessment of Atmospheric and Meteorological Factors Regulating Red Sea Phytoplankton Growth.


Fedkin, Nikita M.; Li, Can; Krotkov, Nickolay A.; Hedelt, Pascal; Loyola, Diego G.; Dickerson, Russell R.; Spurr, Robert (2019). Volcanic SO2 effective layer height retrieval for the Ozone Monitoring Instrument (OMI) using a machine-learning approach.


Strandgren, Johan; Bugliaro, Luca; Sehnke, Frank; Schröder, Leon (2019). Cirrus cloud retrieval with MSG/SEVIRI using artificial neural networks.


Kacenelenbogen, M., M. Vaughan, J. Redemann, S. Young, Z. Liu, Y. Hu, A. Omar, S. LeBlanc, Y. Shinozuka, J. Livingston, Q. Zhang, and K. Powell (2019). Estimations of Global Shortwave Direct Aerosol Radiative Effects Above Opaque Water Clouds Using a Combination of A-Train Satellite Sensors. 19 4933. https://doi.org/10.5194/acp-19-4933-2019


Ren, Tong; Rapp, Anita D.; Mecikalski, John R.; Apke, Jason (2019). Lightning and Associated Convection Features in the Presence of Absorbing Aerosols Over Northern Alabama.


Choudhury, Goutam; Tesche, Matthias (2019). Estimating cloud condensation nuclei concentrations from CALIPSO lidar measurements.


Zamora, Lauren M.; Kahn, Ralph A.; Huebert, Klaus B.; Stohl, Andreas; Eckhardt, Sabine (2019). A satellite-based estimate of combustion aerosol cloud microphysical effects over the Arctic Ocean.


Vaughan, M., Garnier, A., Josset, D., Avery, M., Lee, K.-P., Liu, Z., Hunt, W., Pelon, J., Hu, Y., Burton, S., Hair, J., Tackett, J. L., Getzewich, B., Kar, J., and Rodier, S. (2019). CALIPSO lidar calibration at 1064 nm: version 4 algorithm. Atmos. Meas. Tech., 12 51. https://doi.org/https://doi.org/10.5194/amt-12-51-2019


Haarig, Moritz; Ansmann, Albert; Althausen, Dietrich; Klepel, André; Groß, Silke; Freudenthaler, Volker; Toledano, Carlos; Mamouri, Rodanthi-Elisavet; Farrell, David A.; Prescod, Damien A.; Marinou, Eleni; Burton, Sharon P.; Gasteiger, Josef; Engelmann, Ronny; Baars, Holger (2018). Triple-wavelength depolarization-ratio profiling of Saharan dust over Barbados during SALTRACE in 2013 and 2014.


Getzewich, B. J., Vaughan, M. A., Hunt, W. H., Avery, M. A., Powell, K. A., Tackett, J. L., Winker, D. M., Kar, J., Lee, K.-P., and Toth, T. D. (2018). CALIPSO lidar calibration at 532 nm: version 4 daytime algorithm. Atmos. Meas. Tech., 11 6309. https://doi.org/https://doi.org/10.5194/amt-11-6309-2018


Prata, Andrew T.; Young, Stuart A.; Siems, Steven T.; Manton, Michael J. (2018). Lidar ratios of stratospheric volcanic ash and sulfate aerosols retrieved from CALIOP measurements.


Young, S. A., Vaughan, M. A., Garnier, A., Tackett, J. L., Lambeth, J. D., and Powell, K. A. (2018). Extinction and optical depth retrievals for CALIPSO's Version 4 data release. Atmos. Meas. Tech., 11 5701. https://doi.org/https://doi.org/10.5194/amt-11-5701-2018


Thomas, Manu Anna; Devasthale, Abhay; Kahnert, Michael (2018). Marine aerosol properties over the Southern Ocean in relation to the wintertime meteorological conditions.


Kotarba, Andrzej Z. (2018). Calibration of global MODIS cloud amount using CALIOP cloud profiles.


Qin, Yi; Huang, Jing; McVicar, Tim R.; West, Sam; Khan, Maryam; Steven, Andrew D.L. (2018). Estimating surface solar irradiance from geostationary Himawari-8 over Australia: A physics-based method with calibration.


Ahlgrimm, M., R. Forbes, R. J. Hogan and I. Sandu (2018). Understanding global model systematic shortwave radiation errors in subtropical marine boundary layer cloud regimes. J. Adv. Model. Earth Syst, (10), 2042. https://doi.org/10.1029/2018MS001346


Toth, Travis D.; Zhang, Jianglong; Vaughan, Mark A.; Reid, Jeffrey S.; Campbell, James R. (2018). Retrieving particulate matter concentrations over the contiguous United States using CALIOP observations.


Pitts, Michael C.; Poole, Lamont R.; Gonzalez, Ryan (2018). Polar stratospheric cloud climatology based on CALIPSO spaceborne lidar measurements from 2006 to 2017.


Bourgeois, Q., A. M. L. Ekman, J.-B. Renard, R. Krejci, A. Devasthale, F. A.-M. Bender, I. Riipinen, G. Berthet and J. L. Tackett (2018). How much of the global aerosol optical depth is found in the boundary layer and free troposphere?. Atmos. Chem. Phys, (18), 7709. https://doi.org/10.5194/acp-18-7709-2018


Lapere, Rémy; Mailler, Sylvain; Menut, Laurent (2018). The 2017 Mega-Fires in Central Chile: Impacts on Regional Atmospheric Composition and Meteorology Assessed from Satellite Data and Chemistry-Transport Modeling.


Zamora, Lauren M.; Kahn, Ralph A.; Eckhardt, Sabine; McComiskey, Allison; Sawamura, Patricia; Moore, Richard; Stohl, Andreas (2018). Aerosol indirect effects on the nighttime Arctic Ocean surface from thin, predominantly liquid clouds.


Liu, Zhaoyan; Kar, Jayanta; Zeng, Shan; Tackett, Jason; Vaughan, Mark; Avery, Melody; Pelon, Jacques; Getzewich, Brian; Lee, Kam-Pui; Magill, Brian; Omar, Ali; Lucker, Patricia; Trepte, Charles; Winker, David (2018). Discriminating between clouds and aerosols in the CALIOP version 4.1 data products.


Alexandri, Georgia; Georgoulias, Aristeidis K.; Balis, Dimitris (2018). Effect of Aerosols, Tropospheric NO2 and Clouds on Surface Solar Radiation over the Eastern Mediterranean (Greece).


Dasarathy, S.; Kar, J.; Tackett, J.; Rodier, S. D.; Lu, X.; Vaughan, M.; Toth, T. D.; Trepte, C.; Bowman, J. S. (2018). Multi‐Year Seasonal Trends in Sea Ice, Chlorophyll Concentration, and Marine Aerosol Optical Depth in the Bellingshausen Sea.


Kar, J., Vaughan, M. A., Lee, K.-P., Tackett, J. L., Avery, M. A., Garnier, A., Getzewich, B. J., Hunt, W. H., Josset, D., Liu, Z., Lucker, P. L., Magill, B., Omar, A. H., Pelon, J., Rogers, R. R., Toth, T. D., Trepte, C. R., Vernier, J.-P., Winker, D. M., and Young, S. A (2018). CALIPSO lidar calibration at 532 nm: version 4 nighttime algorithm. Atmos. Meas. Tech., 11 1459. https://doi.org/https://doi.org/10.5194/amt-11-1459-2018


Kay, Jennifer E.; Bourdages, Line; Miller, Nathaniel B.; Morrison, Ariel; Yettella, Vineel; Chepfer, Helene; Eaton, Brian (2018). Evaluating and improving cloud phase in the Community Atmosphere Model version 5 using spaceborne lidar observations. J. Geophys. Res. Atmos., (121), 4162. https://doi.org/10.1002/2015JD024699


Fischer, Emily V.; Zhu, Liye; Payne, Vivienne H.; Worden, John R.; Jiang, Zhe; Kulawik, Susan S.; Brey, Steven; Hecobian, Arsineh; Gombos, Daniel; Cady-Pereira, Karen; Flocke, Frank (2018). Using TES retrievals to investigate PAN in North American biomass burning plumes.


Adebiyi, Adeyemi A.; Zuidema, Paquita (2018). Low Cloud Cover Sensitivity to Biomass-Burning Aerosols and Meteorology over the Southeast Atlantic. Journal of Climate, 31 (11), 4329. https://doi.org/10.1175/JCLI-D-17-0406.1


Griffin, Debora; Sioris, Christopher; Chen, Jack; Dickson, Nolan; Kovachik, Andrew; de Graaf, Martin; Nanda, Swadhin; Veefkind, Pepijn; Dammers, Enrico; McLinden, Chris A.; Makar, Paul; Akingunola, Ayodeji (2018). The 2018 fire season in North America as seen by TROPOMI: aerosol layer height intercomparisons and evaluation of model-derived plume heights.


Campbell, J. R., D. A. Peterson, J. W. Marquis, G. J. Fochesatto, M. A. Vaughan, S. A. Stewart, J. L. Tackett, S. Lolli, J, R. Lewis, M. I. Oyola and E. J. Welton (2018). Unusually Deep Wintertime Cirrus Clouds Observed over the Alaskan Sub-Arctic. B. Am. Meteorol. Soc., (99), 27. https://doi.org/10.1175/BAMS-D-17-0084.1


Hancock, Steven; McGrath, Ciara; Lowe, Christopher; Davenport, Ian; Woodhouse, Iain (2017). Requirements for a global lidar system: spaceborne lidar with wall-to-wall coverage.


Hong, Yulan; Di Girolamo, Larry (2017). An Overview of Aerosol Properties in Clear and Cloudy Sky Based on CALIPSO Observations.


Calì Quaglia, Filippo; Meloni, Daniela; Muscari, Giovanni; Di Iorio, Tatiana; Ciardini, Virginia; Pace, Giandomenico; Becagli, Silvia; Di Bernardino, Annalisa; Cacciani, Marco; Hannigan, James W.; Ortega, Ivan; di Sarra, Alcide Giorgio (2017). On the Radiative Impact of Biomass-Burning Aerosols in the Arctic: The August 2017 Case Study.


Selami, Nada; Sèze, Geneviève; Gaetani, Marco; Grandpeix, Jean-Yves; Flamant, Cyrille; Cuesta, Juan; Benabadji, Noureddine (2017). Cloud Cover over the Sahara during the Summer and Associated Circulation Features.


Yu, Hongbin; Chin, Mian; Bian, Huisheng; Yuan, Tianle; Prospero, Joseph M.; Omar, Ali H.; Remer, Lorraine A.; Winker, David M.; Yang, Yuekui; Zhang, Yan; Zhang, Zhibo (2017). Quantification of trans-Atlantic dust transport from seven-year (2007–2013) record of CALIPSO lidar measurements. Remote Sens. Environ., (159), 232. https://doi.org/10.1016/j.rse.2014.12.010


Strandgren, Johan; Fricker, Jennifer; Bugliaro, Luca (2017). Characterisation of the artificial neural network CiPS for cirrus cloud remote sensing with MSG/SEVIRI.


Zhao, Yuxin; Li, Jiming; Zhang, Lijie; Deng, Cong; Li, Yarong; Jian, Bida; Huang, Jianping (2017). Diurnal cycles of cloud cover and its vertical distribution over the Tibetan Plateau revealed by satellite observations, reanalysis datasets, and CMIP6 outputs.


Young, Stuart A.; Vaughan, Mark A.; Garnier, Anne; Tackett, Jason L.; Lambeth, James D.; Powell, Kathleen A. (2017). Extinction and optical depth retrievals for CALIPSO's Version 4 data release.


Höpfner, Michael; Deshler, Terry; Pitts, Michael; Poole, Lamont; Spang, Reinhold; Stiller, Gabriele; von Clarmann, Thomas (2017). The MIPAS/Envisat climatology (2002–2012) of polar stratospheric cloud volume density profiles.


Zamora, Lauren M.; Kahn, Ralph A. (2017). Saharan Dust Aerosols Change Deep Convective Cloud Prevalence, Possibly by Inhibiting Marine New Particle Formation.


Guzman, R., H. Chepfer, V. Noel, T. Vaillant de Guélis, J. E. Kay, P. Raberanto, G. Cesana, M. A. Vaughan, and D. M. Winker (2017). Direct atmosphere opacity observations from CALIPSO provide new constraints on cloud-radiation interactions. J. Geophys. Res. Atmos., (122), 1066. https://doi.org/10.1002/2016JD025946


Meyer, A.; Vernier, J.‐P.; Luo, B.; Lohmann, U.; Peter, T. (2017). Did the 2011 Nabro eruption affect the optical properties of ice clouds?. Journal of Geophysical Research: Atmospheres, 120 (18), 9500. https://doi.org/10.1002/2015JD023326


Várnai, Tamás; Marshak, Alexander (2016). Analysis of Near-Cloud Changes in Atmospheric Aerosols Using Satellite Observations and Global Model Simulations.


Schäfer, Britta; Carlsen, Tim; Hanssen, Ingrid; Gausa, Michael; Storelvmo, Trude (2016). Observations of cold-cloud properties in the Norwegian Arctic using ground-based and spaceborne lidar.


Mesyats, Svetlana (2016). SATELLITE DATA BASED ASSESSMENT OF ENVIRONMENT IMPACT OF MINING INDUSTRY.


Kim, Man-Hae; Omar, Ali H.; Tackett, Jason L.; Vaughan, Mark A.; Winker, David M.; Trepte, Charles R.; Hu, Yongxiang; Liu, Zhaoyan; Poole, Lamont R.; Pitts, Michael C.; Kar, Jayanta; Magill, Brian E. (2016). The CALIPSO version 4 automated aerosol classification and lidar ratio selection algorithm.


Lu, Xiaomei; Yang, Yuekui; Hu, Yongxiang; Rogers, Laura; Omar, Ali (2016). Global Ocean Studies from ICESat-2 mission.


C. Pardo, Paula; Tilbrook, Bronte; van Ooijen, Erik; Passmore, Abraham; Neill, Craig; Jansen, Peter; Sutton, Adrienne J.; Trull, Thomas W. (2016). Surface ocean carbon dioxide variability in South Pacific boundary currents and Subantarctic waters.


Zhou, Chenglong; Liu, Yuzhi; Zhu, Qingzhe; He, Qing; Zhao, Tianliang; Yang, Fan; Huo, Wen; Yang, Xinghua; Mamtimin, Ali (2016). In situ observation of warm atmospheric layer and the heat contribution of suspended dust over the Tarim Basin.


Palombi, Lorenzo; Raimondi, Valentina (2016). Experimental Tests for Fluorescence LIDAR Remote Sensing of Submerged Plastic Marine Litter.


Garnier, Anne; Pelon, Jacques; Pascal, Nicolas; Vaughan, Mark A.; Dubuisson, Philippe; Yang, Ping; Mitchell, David L. (2016). Version 4 CALIPSO Imaging Infrared Radiometer ice and liquid water cloud microphysical properties – Part I: The retrieval algorithms.


Zeng, Shan; Vaughan, Mark; Liu, Zhaoyan; Trepte, Charles; Kar, Jayanta; Omar, Ali; Winker, David; Lucker, Patricia; Hu, Yongxiang; Getzewich, Brian; Avery, Melody (2016). Application of high-dimensional fuzzy k-means cluster analysis to CALIOP/CALIPSO version 4.1 cloud–aerosol discrimination.


Mülmenstädt, Johannes; Sourdeval, Odran; Henderson, David S.; L'Ecuyer, Tristan S.; Unglaub, Claudia; Jungandreas, Leonore; Böhm, Christoph; Russell, Lynn M.; Quaas, Johannes (2016). Using CALIOP to estimate cloud-field base height and its uncertainty: the Cloud Base Altitude Spatial Extrapolator (CBASE) algorithm and dataset.


Lee, Huikyo; Jeong, Su‐Jong; Kalashnikova, Olga; Tosca, Mika; Kim, Sang‐Woo; Kug, Jong‐Seong (2016). Characterization of Wildfire‐Induced Aerosol Emissions From the Maritime Continent Peatland and Central African Dry Savannah with MISR and CALIPSO Aerosol Products.


Choudhury, Goutam; Tesche, Matthias (2015). Assessment of CALIOP-Derived CCN Concentrations by In Situ Surface Measurements.


Chouza, Fernando; Leblanc, Thierry; Brewer, Mark; Wang, Patrick; Martucci, Giovanni; Haefele, Alexander; Vérèmes, Hélène; Duflot, Valentin; Payen, Guillaume; Keckhut, Philippe (2015). The impact of aerosol fluorescence on long-term water vapor monitoring by Raman lidar and evaluation of a potential correction method.


Zamora, Lauren M.; Kahn, Ralph A.; Evangeliou, Nikolaos; Groot Zwaaftink, Christine D.; Huebert, Klaus B. (2015). Comparisons between the distributions of dust and combustion aerosols in MERRA-2, FLEXPART, and CALIPSO and implications for deposition freezing over wintertime Siberia.


Zhang, Wenjie; Wang, Hong; Zhang, Xiaoye; Huang, Liping; Peng, Yue; Liu, Zhaodong; Zhang, Xiao; Che, Huizheng (2015). Aerosol–cloud interaction in the atmospheric chemistry model GRAPES_Meso5.1/CUACE and its impacts on mesoscale numerical weather prediction under haze pollution conditions in Jing–Jin–Ji in China.


Xu, Xiaohong; Zeng, Yi; Yu, Xing; Liu, Guihua; Yue, Zhiguo; Dai, Jin; Feng, Qiujuan; Liu, Pu; Wang, Jin; Zhu, Yannian (2014). Identification of Supercooled Cloud Water by FY-4A Satellite and Validation by CALIPSO and Airborne Detection.


Legras, Bernard; Duchamp, Clair; Sellitto, Pasquale; Podglajen, Aurélien; Carboni, Elisa; Siddans, Richard; Grooß, Jens-Uwe; Khaykin, Sergey; Ploeger, Felix (2013). The evolution and dynamics of the Hunga Tonga–Hunga Ha'apai sulfate aerosol plume in the stratosphere.


Leahy, L. V., R. Wood, R. J. Charlson, C. A. Hostetler, R. R. Rogers, M. A. Vaughan, and D. M. Winker (2012). On the nature and extent of optically thin marine low clouds. J. Geophys. Res., 117 (D22201), https://doi.org/10.1029/2012JD017929


Tan, I., T. Storelvmo and Y.-S. Choi (2012). Spaceborne lidar observations of the ice nucleating potential of dust, polluted dust and smoke aerosols in mixed-phase clouds. J. Geophys. Res., (119), 6653. https://doi.org/10.1002/grl.50145


Haynes, J. M., T. H. Vonder Haar, T. L’Ecuyer and D. Henderson (2012). Radiative heating characteristics of earth’s cloudy atmosphere from vertically resolved active sensors. Geophys. Res. Lett., (40), 624. https://doi.org/10.1002/grl.50145


Adams, A. M., J. M. Prospero and C. Zhang (2012). CALIPSO Derived Three-Dimensional Structure of Aerosol over the Atlantic and Adjacent Continents. J. Climate, (25), 6862. https://doi.org/10.1175/JCLI-D-11-00672.1


Vernier, J.-P., L. W. Thomason, J. P. Pommereau, A. Bourassa, J. Pelon, A. Garnier, A. Hauchecorne, L. Blanot, C. Trepte, D. Degenstein, F. Vargas (2011). Major influence of tropical volcanic eruptions on the stratospheric aerosol layer during the last decade. Geophys. Res. Lett., 38 (L12807), https://doi.org/10.1029/2011GL047563


Kiliyanpilakkil VP, Meskhidze N (2011). Deriving the effect of wind speed on clean maritime aerosol optical properties using the A-Train satellites. Atmospheric Chemistry and Physics, 11 (2), 4599. https://doi.org/10.5194/acpd-11-4599-2011


Hu, Y., S. Rodier, K. Xu, W. Sun, J. Huang, B. Lin, P. Zhai, and D. Josset (2010). Occurrence, Liquid Water Content, and Fraction of Supercooled Water Clouds from Combined CALIOP/IIR/MODIS Measurements. J. Geophys. Res., 115 (D00H34), https://doi.org/10.1029/2009JD012384


Winker, D. M., J. Pelon, J. A. Coakley, Jr., S. A. Ackerman, R. J. Charlson, P. R. Colarco, P. Flamant, Q. Fu, R. Hoff, C. Kittaka, T. L. Kubar, H. LeTreut, M. P. McCormick, G. Megie, L. Poole, K. Powell, C. Trepte, M. A. Vaughan, B. A. Wielicki (2010). The CALIPSO Mission: A Global 3D View Of Aerosols And Clouds. Bull. Am. Meteorol. Soc., 91 (9), 1211. https://doi.org/10.1175/2010BAMS3009.1


Yu H, Chin M, Winker DM, Omar AH, Liu Z, Kittaka C, Diehl T (2010). Global view of aerosol vertical distributions from CALIPSO lidar measurements and GOCART simulations: Regional and seasonal variations. Journal of Geophysical Research, 115 (D00H30), https://doi.org/10.1029/2009JD013364


Wang X, Frontoso M G, Pisani G, Spinelli N (2007). Retrieval of atmospheric particles optical properties by combining ground-based and spaceborne lidar elastic scattering profiles. Optics Express, 15 (11), 6734. https://doi.org/10.1364/OE.15.006734


Lu, Xiaomei; Hu, Yongxiang; Liu, Zhaoyan; Rodier, Sharon; Vaughan, Mark; Lucker, Patricia; Trepte, Charles; Pelon, Jacques (2005). Observations of Arctic snow and sea ice cover from CALIOP lidar measurements. Remote Sens. Environ., (194), 248. https://doi.org/10.1016/j.rse.2017.03.046