On 9 October 2007, long-horizontal-wavelength gravity waves were observed for the first time to steepen and form mesospheric bores at the altitude of ∼87 km, by an all-sky OH imager located at Fort Collins (41°N, 105°W), Colorado. The collocated sodium lidar simultaneously observed the presence of a temperature inversion layer as the ducting region. One mesospheric bore uniquely later evolved into a large-amplitude soliton-like perturbation. When the gravity wave and the associated soliton-like perturbation passed through the lidar beams, the lidar detected strong vertical disturbance at 90 km, indicating convective instability. A large cold front system recorded several hours before in the troposphere was aligned to phase fronts of these large gravity waves. For all of the 7 mesospheric bores observed over a 5 year period, we found a similar alignment with a cold front 1000–1500 km away as the likely source of these large-scale gravity waves.
Article
Mesospheric bore formation fromlarge-scale gravity wave perturbations observed by collocated all-sky OH imager and sodium lidar
Journal of Atmospheric and Solar-Terrestrial Physics
Document Type
Article
Publication Date
1-1-2009
Disciplines
Abstract
https://doi.org/10.1016/j.jastp.2009.10.002
Citation Information
Yue, J., Chiao-Yao She, Takuji Nakamura, Sean Harrell and T. Yuan (2009), Mesospheric bore formation from
large-scale gravity wave perturbations observed by collocated all-sky OH imager and sodium lidar, J. Atmos.
Solar-Terr. Phys. 72, 7-18.
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