| Nome |
# |
|
Role of moisture patterns in the backbuilding formation of HyMeX IOP13 heavy precipitation systems, file dd9e0b51-27ab-1e84-e053-3a05fe0aa940
|
45
|
|
Rain evaporation rate estimates from dual-wavelength lidar measurements and intercomparison against a model analytical solution, file dd9e0b50-fce9-1e84-e053-3a05fe0aa940
|
33
|
|
Temperature and water vapour measurements in the framework of the Network for the Detection of Atmospheric Composition Change (NDACC), file dd9e0b51-5d0a-1e84-e053-3a05fe0aa940
|
31
|
|
Investigations of profiles of vertical velocity skewness and sources of layers of strongly positive skewness as observed by Doppler lidar during COPS - a case study of a rainfall event, file dd9e0b50-8efc-1e84-e053-3a05fe0aa940
|
30
|
|
The role of orography in the regeneration of convection: A case study from the convective and orographically-induced precipitation study, file dd9e0b50-da08-1e84-e053-3a05fe0aa940
|
26
|
|
Aerosol direct radiative effects under cloud-free conditions over highly-polluted areas in europe and mediterranean: A ten-years analysis (2007–2016), file dd9e0b51-9de5-1e84-e053-3a05fe0aa940
|
25
|
|
Multi-scale observations of atmospheric moisture variability in relation to heavy precipitating systems in the northwestern Mediterranean during HyMeX IOP12, file dd9e0b51-3287-1e84-e053-3a05fe0aa940
|
24
|
|
Measurements of low amounts of precipitable water vapor by millimeter wave spectroscopy: An intercomparison with radiosonde, Raman lidar, and Fourier transform infrared data, file dd9e0b50-94ac-1e84-e053-3a05fe0aa940
|
22
|
|
Retrieval validation during the European Aqua Thermodynamic Experiment, file dd9e0b50-944f-1e84-e053-3a05fe0aa940
|
18
|
|
The LITE Correlative Measurements Campaign in Southern Italy: Preliminary Results, file dd9e0b50-94ad-1e84-e053-3a05fe0aa940
|
18
|
|
UV Raman lidar measurements of relative humidity for the characterization of cirrus cloud microphysical properties, file dd9e0b50-803b-1e84-e053-3a05fe0aa940
|
14
|
|
Ground based lidar and microwave radiometry synergy for high vertically resolved thermodynamic profiling, file dd9e0b50-a5c9-1e84-e053-3a05fe0aa940
|
14
|
|
Characterization of particle hygroscopicity by Raman lidar: Selected case studies from the convective and orographically-induced precipitation study, file dd9e0b50-8c28-1e84-e053-3a05fe0aa940
|
12
|
|
An Intercomparison of Precipitable Water Vapor Measurements Obtained During the ECOWAR Field Campaign, file dd9e0b50-94ab-1e84-e053-3a05fe0aa940
|
12
|
|
Water vapor mixing ratio and temperature inter-comparison results in the framework of the Hydrological Cycle in the Mediterranean Experiment—Special Observation Period 1, file dd9e0b51-62d2-1e84-e053-3a05fe0aa940
|
11
|
|
Characterization of the planetary boundary layer height and structure by Raman lidar: comparison of different approaches, file dd9e0b50-8efa-1e84-e053-3a05fe0aa940
|
10
|
|
Introducing the Bulletin of Atmospheric Science and Technology, file dd9e0b51-62d4-1e84-e053-3a05fe0aa940
|
10
|
|
Evidence-Based Considerations Exploring Relations between SARS-CoV-2 Pandemic and Air Pollution: Involvement of PM2.5-Mediated Up-Regulation of the Viral Receptor ACE-2, file e3cff507-4c7d-48da-9587-3943dae402a5
|
10
|
|
Lidar in Space Technology Experiment correlative measurements by lidar in Potenza, southern Italy., file dd9e0b50-78da-1e84-e053-3a05fe0aa940
|
9
|
|
Major advances foreseen in humidity profiling from the Water Vapour Lidar Experiment in Space (WALES), file dd9e0b50-7930-1e84-e053-3a05fe0aa940
|
9
|
|
Lidar and radar measurements of the melting layer in the frame of the Convective and Orographically-induced Precipitation Study: observations of dark and bright band phenomena, file dd9e0b50-8299-1e84-e053-3a05fe0aa940
|
9
|
|
Characterization of the planetary boundary layer height and structure by Raman lidar: comparison of different approaches, file dd9e0b50-8c26-1e84-e053-3a05fe0aa940
|
9
|
|
Characterization of Water Vapor Fluxes by the Raman Lidar System Basil and the Univeristy of Cologne Wind Lidar in the Frame of the HD(CP)2 Observational Prototype Experiment-Hope, file dd9e0b50-d986-1e84-e053-3a05fe0aa940
|
9
|
|
Assessment of Trends and Uncertainties in the Atmospheric
Boundary Layer Height Estimated Using Radiosounding
Observations over Europe, file dd9e0b51-8828-1e84-e053-3a05fe0aa940
|
9
|
|
CO2 Profiling by Space-Borne Raman Lidar, file dd9e0b51-9cff-1e84-e053-3a05fe0aa940
|
9
|
|
Measurements of Aerosol Size and Microphysical Properties: A Comparison Between Raman Lidar and Airborne Sensors, file 08a7282f-a79d-4928-85a0-1d7390d62719
|
8
|
|
Evidence-based considerations exploring relations between sars-cov-2 pandemic and air pollution: Involvement of pm2.5-mediated up-regulation of the viral receptor ace-2, file 6b3744d8-214a-4c7e-9e85-8ac1fb995e07
|
8
|
|
Lidar and radar measurements of the melting layer: observations of dark and bright band phenomena, file dd9e0b50-849e-1e84-e053-3a05fe0aa940
|
8
|
|
Ground-based lidar and microwave radiometry synergy for high vertical resolution absolute humidity profiling, file dd9e0b50-d97f-1e84-e053-3a05fe0aa940
|
8
|
|
Large-eddy simulations over Germany using ICON: a comprehensive evaluation, file dd9e0b50-f7c0-1e84-e053-3a05fe0aa940
|
8
|
|
Estimate of rain evaporation rates from dual-wavelength lidar measurements: Comparison against a model analytical solution, file dd9e0b51-31eb-1e84-e053-3a05fe0aa940
|
8
|
|
Characterization of atmospheric aerosol optical properties based on the combined use of a ground-based Raman lidar and an airborne optical particle counter in the framework of the Hydrological Cycle in the Mediterranean Experiment - Special Observation Period 1, file dd9e0b51-4995-1e84-e053-3a05fe0aa940
|
8
|
|
Assessment of the potential role of atmospheric particulate pollution and airborne transmission in intensifying the first wave pandemic impact of SARS-CoV-2/COVID-19 in Northern Italy, file dd9e0b51-6bcd-1e84-e053-3a05fe0aa940
|
8
|
|
Characterization of Complex Water Vapour Field Structures and their Genesis Based on the Combined use of Raman Lidar Measurements and MESO-NH Model Simulations, file dd9e0b51-9e27-1e84-e053-3a05fe0aa940
|
8
|
|
Characterization of convection-related parameters by Raman lidar: Selected case studies from the convective and orographically-induced precipitation study, file dd9e0b50-8c27-1e84-e053-3a05fe0aa940
|
7
|
|
Convective Precipitation in complex terrain: Results of the COPS campaign, file dd9e0b50-8efb-1e84-e053-3a05fe0aa940
|
7
|
|
Overview: Tropospheric profiling: State of the art and future challenges - Introduction to the AMT special issue, file dd9e0b50-a591-1e84-e053-3a05fe0aa940
|
7
|
|
Assessment of small-scale integrated water vapour variability during HOPE, file dd9e0b50-a595-1e84-e053-3a05fe0aa940
|
7
|
|
Water vapour profiles from Raman lidar automatically calibrated by microwave radiometer data during HOPE, file dd9e0b50-a598-1e84-e053-3a05fe0aa940
|
7
|
|
A review of the remote sensing of lower tropospheric thermodynamic profiles and its indispensable role for the understanding and the simulation of water and energy cycles, file dd9e0b50-d9ed-1e84-e053-3a05fe0aa940
|
7
|
|
Lidar Observations of Low-level Wind Reversals over the Gulf of Lion and Characterization of Their Impact on the Water Vapour Variability, file dd9e0b50-df56-1e84-e053-3a05fe0aa940
|
7
|
|
The HD(CP)2 Observational Prototype Experiment HOPE – An Overview, file dd9e0b50-fb2c-1e84-e053-3a05fe0aa940
|
7
|
|
Characterization of atmospheric thermodynamic variables by Raman lidar in the frame of the International Network for the Detection of Atmospheric Composition Change - NDACC, file dd9e0b51-3171-1e84-e053-3a05fe0aa940
|
7
|
|
Space-borne profiling of atmospheric thermodynamic variables with Raman lidar: Performance simulations, file dd9e0b51-3285-1e84-e053-3a05fe0aa940
|
7
|
|
Overview towards improved understanding of the mechanisms leading to heavy precipitation in the Western Mediterranean: lessons learned from HyMeX, file dd9e0b51-957c-1e84-e053-3a05fe0aa940
|
7
|
|
Characterization of Aerosol Size and Microphysical Properties from Multi-Wavelength Raman Lidar Measurements: Inter-Comparison with in Situ Sensors Onboard the ATR 42 in the Framework of HyMEX-SOP1, file dd9e0b51-9788-1e84-e053-3a05fe0aa940
|
7
|
|
Water Vapour and Temperature Measurements by Raman Lidar in the Frame of the NDACC, file dd9e0b51-978a-1e84-e053-3a05fe0aa940
|
7
|
|
A network of water vapor Raman lidars for improving heavy precipitation forecasting in southern France: introducing the WaLiNeAs initiative, file dd9e0b51-9d73-1e84-e053-3a05fe0aa940
|
7
|
|
Statistical Analysis of Simulated Spaceborne Thermodynamics Lidar Measurements in the Planetary Boundary Layer, file 0e9d7541-897f-4e99-83bb-8b14aad6fead
|
6
|
|
Inter-comparison of atmospheric boundary layer (ABL) height estimates from different profiling sensors and models in the framework of HyMeX-SOP1, file bb8c7d25-3b35-4592-be12-0e1f78348f9d
|
6
|
|
Assessment of small-scale integrated water vapour variability during HOPE, file dd9e0b50-ac42-1e84-e053-3a05fe0aa940
|
6
|
|
Characterisation of boundary layer turbulent processes by the Raman lidar BASIL in the frame of HD(CP)2 Observational Prototype Experiment, file dd9e0b50-f883-1e84-e053-3a05fe0aa940
|
6
|
|
Space-borne profiling of atmospheric thermodynamic variables with raman lidar, file dd9e0b51-31e9-1e84-e053-3a05fe0aa940
|
6
|
|
High-resolution humidity profiles retrieved from wind profiler radar measurements, file dd9e0b51-3289-1e84-e053-3a05fe0aa940
|
6
|
|
The AROME-WMED reanalyses of the first special observation period of the Hydrological cycle in the Mediterranean experiment (HyMeX), file dd9e0b51-3e27-1e84-e053-3a05fe0aa940
|
6
|
|
Lagrangian matches between observations from aircraft, lidar and
radar in a warm conveyor belt crossing orography, file dd9e0b51-882a-1e84-e053-3a05fe0aa940
|
6
|
|
Atmospheric Boundary Layer Height: Inter-Comparison of Different Estimation Approaches Using the Raman Lidar as Benchmark, file 2844db5c-ce49-4d2b-8d26-bea0fa0ee2db
|
5
|
|
RESEARCH CAMPAIGN: THE CONVECTIVE AND OROGRAPHICALLY INDUCED PRECIPITATION STUDY
A Research and Development Project of the World Weather Research Program for Improving Quantitative Precipitation Forecasting in Low-Mountain Regions, file dd9e0b50-7891-1e84-e053-3a05fe0aa940
|
5
|
|
Comparison of IASI water vapour products over complex terrain with COPS campaign data, file dd9e0b50-94c7-1e84-e053-3a05fe0aa940
|
5
|
|
Water vapour profiles from raman lidar automatically calibrated by microwave radiometer data during hope, file dd9e0b50-b92e-1e84-e053-3a05fe0aa940
|
5
|
|
The radiative impact of desert dust on orographic rain in the Cévennes-Vivarais area: A case study from HyMeX, file dd9e0b50-c07b-1e84-e053-3a05fe0aa940
|
5
|
|
Water Vapour Mixing Ratio Measurements in Potenza in the Frame of the International Network for the Detection of Atmospheric Composition Change-NDACC, file dd9e0b50-d984-1e84-e053-3a05fe0aa940
|
5
|
|
Characterization of Turbulent Processes by the Raman Lidar System Basil in the Frame of the HD(CP)2 Observational Prototype Experiment-Hope, file dd9e0b50-dc06-1e84-e053-3a05fe0aa940
|
5
|
|
Clear-air lidar dark band, file dd9e0b51-31f0-1e84-e053-3a05fe0aa940
|
5
|
|
Water vapour inter-comparison effort in the framework of the hydrological cycle in the mediterranean experiment - Special observation period (hymex-sop1), file dd9e0b51-322d-1e84-e053-3a05fe0aa940
|
5
|
|
Temperature inter-comparison effort in the framework of Hydrological Cycle in the Mediterranean Experiment - Special Observation Period (HyMeX-SOP1), file dd9e0b51-3480-1e84-e053-3a05fe0aa940
|
5
|
|
Introducing the atmospheric thermodynamics lidar in Space: ATLAS, file dd9e0b51-3e29-1e84-e053-3a05fe0aa940
|
5
|
|
Two wavelength lidar analysis of stratospheric aerosol size distribution, file dd9e0b50-7892-1e84-e053-3a05fe0aa940
|
4
|
|
Continuous Time Series of Water Vapor Profiles from a Combination of Raman Lidar and Microwave Radiometer, file dd9e0b50-dc05-1e84-e053-3a05fe0aa940
|
4
|
|
Atmospheric Thermodynamic Profiling through the Use of a Micro-Pulse Raman Lidar System: Introducing the Compact Raman Lidar MARCO, file 028986d3-c587-4263-8ac8-d2520cfe8c22
|
3
|
|
Characterization of PBL height and structure by Raman lidar: Selected case studies from the convective and orographically-induced precipitation study, file dd9e0b50-8c29-1e84-e053-3a05fe0aa940
|
3
|
|
HyMeX-SOP1, the field campaign dedicated to heavy precipitation and flash flooding in the northwestern Mediterranean, file dd9e0b50-8c96-1e84-e053-3a05fe0aa940
|
3
|
|
null, file dd9e0b51-9580-1e84-e053-3a05fe0aa940
|
3
|
|
Shipborne oceanic high-spectral-resolution lidar for accurate estimation of seawater depth-resolved optical properties, file e6687819-f71b-4f12-af3e-8afb34827e6c
|
3
|
|
Satellite Lidar Measurements as a Critical New Global Ocean Climate Record, file 91bb9933-8562-44e3-bfbd-d18ff96dc3df
|
2
|
|
Comprehensive, Continuous, and Vertical Measurements of Seawater Constituents with Triple-Field-of-View High-Spectral-Resolution Lidar, file bbeade7f-9811-4b46-a1e8-26e9970be0c3
|
2
|
|
Satellite- and ground-based atmospheric water vapor measurements: a comparative study, file e8f011b5-1046-4b55-882d-4b9beb16f100
|
2
|
|
EAQUATE – An International Experiment For Hyper-spectral Atmospheric Sounding Validation, file dd9e0b50-809a-1e84-e053-3a05fe0aa940
|
1
|
|
APPLICATION OF RANDOMLY ORIENTED SPHEROIDS FORRETRIEVAL OF DUST PARTICLE PARAMETERS FROM MULTIWAVELENGTH LIDAR MEASUREMENTS, file dd9e0b50-8630-1e84-e053-3a05fe0aa940
|
1
|
|
Analysis of cirrus cloud spectral signatures in the Far InfraRed, file dd9e0b50-8fde-1e84-e053-3a05fe0aa940
|
1
|
|
BAST newsletter—June 2020, file dd9e0b51-95dc-1e84-e053-3a05fe0aa940
|
1
|
| Totale |
734 |