[HTML][HTML] A Compact Rayleigh Autonomous Lidar (CORAL) for the middle atmosphere
Abstract The Compact Rayleigh Autonomous Lidar (CORAL) is the first fully autonomous
middle atmosphere lidar system to provide density and temperature profiles from 15 to …
middle atmosphere lidar system to provide density and temperature profiles from 15 to …
Lidar observations of persistent gravity waves with periods of 3–10 h in the Antarctic middle and upper atmosphere at McMurdo (77.83 S, 166.67 E)
Persistent, dominant, and large‐amplitude gravity waves with 3–10 h periods and vertical
wavelengths~ 20–30 km are observed in temperatures from the stratosphere to lower …
wavelengths~ 20–30 km are observed in temperatures from the stratosphere to lower …
Gravity wave propagation and dissipation from the stratosphere to the lower thermosphere
One‐night (28 October 2003) temperature and horizontal wind measurements by a
resonance sodium (Na) wind/temperature lidar at Maui (20.7° N, 156.3° W) and temperature …
resonance sodium (Na) wind/temperature lidar at Maui (20.7° N, 156.3° W) and temperature …
Vertical distribution of gravity wave potential energy from long‐term Rayleigh lidar data at a northern middle‐latitude site
N Mzé, A Hauchecorne, P Keckhut… - Journal of Geophysical …, 2014 - Wiley Online Library
In this paper, we use the Rayleigh lidar in order to give an overview of the gravity wave
activity at a northern middle‐latitude station at Haute‐Provence Observatory (43.93° N, 5.71° …
activity at a northern middle‐latitude station at Haute‐Provence Observatory (43.93° N, 5.71° …
Gravity wave propagation from the stratosphere into the mesosphere studied with lidar, meteor radar, and TIMED/SABER
S Gong, G Yang, J Xu, X Liu, Q Li - Atmosphere, 2019 - mdpi.com
A low-frequency inertial atmospheric gravity wave (AGW) event was studied with lidar (40.5°
N, 116° E), meteor radar (40.3° N, 116.2° E), and TIMED/SABER at Beijing on 30 May 2012 …
N, 116° E), meteor radar (40.3° N, 116.2° E), and TIMED/SABER at Beijing on 30 May 2012 …
[PDF][PDF] 利用瑞利激光雷达观测北京地区上平流层地形重力波活动
郭文杰, 胡雄, 闫召爱, 郭商勇, 程永强, 杨钧烽 - 2015 - dsjyj.com.cn
摘要本文利用中国科学院空间科学与应用研究中心的瑞利激光雷达首次观测到了平流层地形
重力波活动的现象, 并结合美国国家环境预报中心(NCEP) 的全球预报系统(GFS) …
重力波活动的现象, 并结合美国国家环境预报中心(NCEP) 的全球预报系统(GFS) …
Retrieval of intrinsic mesospheric gravity wave parameters using lidar and airglow temperature and meteor radar wind data
We analyse gravity waves in the upper-mesosphere, lower-thermosphere region from high-
resolution temperature variations measured by the Rayleigh lidar and OH temperature …
resolution temperature variations measured by the Rayleigh lidar and OH temperature …
A quantitative study on the role of gravity waves in driving the tropical Stratospheric Semiannual Oscillation
TM Antonita, G Ramkumar, KK Kumar… - Journal of …, 2007 - Wiley Online Library
Using a coordinated experimental observation under Middle Atmospheric Dynamics
(MIDAS) program, an extensive study is carried out to quantify the role of gravity waves in …
(MIDAS) program, an extensive study is carried out to quantify the role of gravity waves in …
Long-term lidar observations of wintertime gravity wave activity over northern Sweden
B Ehard, P Achtert, J Gumbel - Annales Geophysicae, 2014 - angeo.copernicus.org
This paper presents an analysis of gravity wave activity over northern Sweden as deduced
from 18 years of wintertime lidar measurements at Esrange (68∘ N, 21∘ E). Gravity wave …
from 18 years of wintertime lidar measurements at Esrange (68∘ N, 21∘ E). Gravity wave …
Mesospheric Gravity Wave Potential Energy Density Observed by Rayleigh Lidar above Golmud (36.25 N, 94.54 E), Tibetan Plateau
W Zhao, X Hu, W Pan, Z Yan, W Guo - Atmosphere, 2022 - mdpi.com
Rayleigh lidar data in 2013–2015 is used to describe the characteristics of gravity wave
potential energy density in the mesosphere above Golmud (36.25° N, 94.54° E) of the …
potential energy density in the mesosphere above Golmud (36.25° N, 94.54° E) of the …