论文信息 - Observations of the unambiguous 2‐dimensional horizontal wave number spectrum of OH intensity perturbations

Observations of the unambiguous 2‐dimensional horizontal wave number spectrum of OH intensity perturbations

The unambiguous 2-D horizontal wave number spectrum of gravity wave perturbations in OH emission intensities is computed from imager observations acquired on 2 Feb 1995 at the Starfire Optical Range, NM. The technique involves computing the (ω, k, l) = (ω, h, ϕ) spectrum of OH image collected over a several hour period, where k is the zonal wave number, l is the meridional wave number, h = (k² + l²)1/2, ϕ = tan−1 (k/l), and ω is the temporal frequency. The data are used to study the azimuthal distribution of wave energy propagation and the separability of the (h, ϕ) spectrum. The h spectral indices, computed from power-law fits of the 2-D spectrum over the wave number range 2π/(200 km) < h < 2π/(20 km), vary between −1.6 and −3.6 as a function of ϕ with a mean of −2.58. Consequently, the image spectrum is not separable in h and ϕ. We show that nonseparability is most likely associated with distortion of the wave perturbations caused by the viewing geometry at large zenith angles.

[1] C. Gardner. Diffusive filtering theory of gravity wave spectra in the atmosphere , 1994 .

[2] Gordon G. Shepherd,et al. Gravity waves from O2 nightglow during the AIDA '89 campaign I: emission rate/temperature observations , 1993 .

[3] C. Gardner. Testing theories of atmospheric gravity wave saturation and dissipation , 1996 .

[4] Chester S. Gardner,et al. Gravity wave models for the horizontal wave number spectra of atmospheric velocity and density fluctuations , 1993 .

[5] James H. Hecht,et al. First measurements of the two‐dimensional horizontal wave number spectrum from CCD images of the nightglow , 1994 .

[6] Chester S. Gardner,et al. An investigation of intrinsic gravity wave signatures using coordinated lidar and nightglow image measurements , 1995 .