Inertia–Gravity Waves Breaking in the Middle Atmosphere at High Latitudes: Energy Transfer and Dissipation Tensor Anisotropy

Abstract: We present Direct Numerical Simulations of inertia-gravity waves breaking in the middle-upper mesosphere. We consider two different altitudes, which correspond to the Reynolds number of 28 647 and 114 591 based on wavelength and the buoyancy period. While the former was studied by Remmler et al. (2013), it is here repeated at a higher resolution and serves as a baseline for comparison with the high Reynolds number case. The simulations are designed based on the study of Fruman et al. (2014), and are initialize… Show more

“…In recent years, issues such as global climate change, abnormal weather phenomena and frequent disasters have received more and more attention from governments of all countries, and remote sensing of the atmosphere has become an international hot research topic. Atmospheric wind information is an important atmospheric parameter, which can reflect the local or global atmospheric fluctuation, the coupling process between the atmosphere layers and the characteristics of material and energy transport in the global range [1]. The remote sensing and scientific research of global atmospheric wind field by optical interference technology is important to human understanding the mechanism and progress of the important climate phenomena [2].…”

Field Extended Birefringent Static Doppler Wind Imaging Interferometer

“…In recent years, issues such as global climate change, abnormal weather phenomena and frequent disasters have received more and more attention from governments of all countries, and remote sensing of the atmosphere has become an international hot research topic. Atmospheric wind information is an important atmospheric parameter, which can reflect the local or global atmospheric fluctuation, the coupling process between the atmosphere layers and the characteristics of material and energy transport in the global range [1]. The remote sensing and scientific research of global atmospheric wind field by optical interference technology is important to human understanding the mechanism and progress of the important climate phenomena [2].…”

Field Extended Birefringent Static Doppler Wind Imaging Interferometer