Lidar temperature series in the middle atmosphere as a reference data set–Part 1: Improved retrievals and a 20-year cross-validation of two co-located French lidars
R Wing, A Hauchecorne, P Keckhut… - Atmospheric …, 2018 - amt.copernicus.org
The objective of this paper and its companion (Wing et al., 2018) is to show that ground-
based lidar temperatures are a stable, accurate, and precise data set for use in validating …
based lidar temperatures are a stable, accurate, and precise data set for use in validating …
[HTML][HTML] Lidar temperature series in the middle atmosphere as a reference data set–Part 2: Assessment of temperature observations from MLS/Aura and SABER …
R Wing, A Hauchecorne, P Keckhut… - Atmospheric …, 2018 - amt.copernicus.org
We have compared 2433 nights of Rayleigh lidar temperatures measured at L'Observatoire
de Haute Provence (OHP) with co-located temperature measurements from the Microwave …
de Haute Provence (OHP) with co-located temperature measurements from the Microwave …
Research on the measurement accuracy of Shipborne Rayleigh scattering Lidar
Z Chen, Z Yan, B Zhang, X Hu, X Cheng, W Guo - Remote Sensing, 2022 - mdpi.com
This paper aims to study the measurement accuracy of Rayleigh scattering lidar (light
detection and ranging) based on a ship platform and analyze the influence of the laser beam …
detection and ranging) based on a ship platform and analyze the influence of the laser beam …
[HTML][HTML] Measurement Accuracy and Attitude Compensation of Rayleigh Lidar on an Airborne Floating Platform
T Wu, K Zhong, X Zhang, F Li, X Li, X Zhang, Z Yan… - Remote Sensing, 2024 - mdpi.com
Rayleigh lidar equipped on airborne floating platforms has received increasing attention in
recent years due to the demand for exploring the middle atmosphere. However, the …
recent years due to the demand for exploring the middle atmosphere. However, the …
A new method to derive middle atmospheric temperature profiles using a combination of Rayleigh lidar and O2 airglow temperatures measurements
A Taori, A Jayaraman, K Raghunath… - Annales …, 2012 - angeo.copernicus.org
The vertical temperature profiles in a typical Rayleigh lidar system depends on the
backscatter photon counts and the CIRA-86 model inputs. For the first time, we show that, by …
backscatter photon counts and the CIRA-86 model inputs. For the first time, we show that, by …
Long-term variation of OH peak emission altitude and volume emission rate over Indian low latitudes
Abstract Using 13 (April 2002–December 2014) years of Sounding of the Atmosphere using
Broadband Emission Radiometry (SABER/TIMED) 1.6 µm OH airglow emission data, we …
Broadband Emission Radiometry (SABER/TIMED) 1.6 µm OH airglow emission data, we …
First observation of upper mesospheric semi annual oscillations using ground based airglow measurements from Indian low latitudes
A Taori, V Kamalakar, A Jayaraman - Advances in space research, 2012 - Elsevier
We summarize two years of Mesosphere Lower Thermosphere Photometer (MLTP)
operation of mesospheric OH and O2 emission monitoring. The deduced mesospheric OH …
operation of mesospheric OH and O2 emission monitoring. The deduced mesospheric OH …
Simultaneous measurement of OI 557.7 nm, O2 (0, 1) Atmospheric Band and OH (6, 2) Meinel Band nightglow at Kolhapur (17° N), India
Near-simultaneous measurements of OI 557.7 nm, O 2 (0, 1) Atmospheric Band and OH (6,
2) Meinel Band nightglow were carried out at Kolhapur (17° N), India during February …
2) Meinel Band nightglow were carried out at Kolhapur (17° N), India during February …
Simultaneous mesospheric gravity wave measurements in OH night airglow emission from Gadanki and Kolhapur—Indian low latitudes
Simultaneous photometric measurements of mesospheric OH night airglow emissions have
been made from two stations, Gadanki (13.5° N, 79.2° E) and Kolhapur (16.8° N, 74.2° E) …
been made from two stations, Gadanki (13.5° N, 79.2° E) and Kolhapur (16.8° N, 74.2° E) …
Modélisation du rayonnement proche infrarouge émis par la haute atmosphère: étude théorique et observationnelle
C Bellisario - 2015 - hal.science
Le rayonnement atmosphérique appelé nightglow est un phénomène se produisant à haute
altitude (environ 90km). Il consiste en l'émission d'un rayonnement suite à la désexcitation …
altitude (environ 90km). Il consiste en l'émission d'un rayonnement suite à la désexcitation …