2017
DOI: 10.1002/qj.3025
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Classification of eastward propagating waves on the spherical Earth

Abstract: Observational evidence for an equatorial non-dispersive mode propagating at the speed of gravity waves is strong, and while the structure and dispersion relation of such a mode can be accurately described by a wave theory on the equatorial β-plane, prior theories on the sphere were unable to find such a mode except for particular asymptotic limits of gravity wave phase speeds and/or certain zonal wave numbers. Here, an ad hoc solution of the linearized rotating shallow-water equations (LRSWE) on a sphere is de… Show more

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Cited by 18 publications
(29 citation statements)
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“…In addition, it was also shown in Garfinkel et al. s*() that the LSWEs on the sphere reduce to those on the equatorial β ‐plane only for ϵ 1/4 ≫ 1, where ϵ is Lamb's parameter (see definition in Section 2 below). However a comparison with numerical solutions on a sphere suggests that the dispersion relation obtained by Matsuno is valid even for small values of ϵ .…”
Section: Introductionmentioning
confidence: 85%
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“…In addition, it was also shown in Garfinkel et al. s*() that the LSWEs on the sphere reduce to those on the equatorial β ‐plane only for ϵ 1/4 ≫ 1, where ϵ is Lamb's parameter (see definition in Section 2 below). However a comparison with numerical solutions on a sphere suggests that the dispersion relation obtained by Matsuno is valid even for small values of ϵ .…”
Section: Introductionmentioning
confidence: 85%
“…In order to restrict the integration to the regular solution, we set trueV˜false(πfalse/2105false)=1 (which is a normalization of the linear differential system) and trueη˜false(πfalse/2105false)=false(ω+ϵfalse)false/k to ensure regularity at the singular poles (see (Garfinkel et al. , )). Note the following.…”
Section: Governing Equations and Numerical Methods Of Solutionmentioning
confidence: 99%
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“… Aleutian low Quasi‐stationary low pressure system in the North Pacific near the Aleutian Islands. Amundsen Sea low Quasi‐stationary low pressure system in the South Pacific in the Amundsen Sea. Arctic Oscillation The dominant mode of climate variability in the Northern Hemisphere extratropics, representing a seesaw in mass between the extratropics and the poles, here used synonymously with the Northern Annular Mode. Atmospheric Kelvin wave Classically considered to be a nondispersive, equatorially confined wave with zero meridional velocity that propagates eastward at the same speed a gravity wave would propagate in the absence of rotation. See Garfinkel, Fouxon, et al () for a geophysical fluid dynamics definition of Kelvin waves. Brewer‐Dobson Circulation (BDC) The mean mass transport within the stratosphere, which consists of rising motion in the tropics and subsiding motion over the poles. Canonical El Niño A “regular”/Eastern Pacific El Niño event. Cold point The coldest region of the tropical tropopause where temperatures can drop below 190 K. El Niño Modoki An El Niño event that peaks further west in the equatorial Pacific in comparison to the canonical El Niño. ENSO flavor The type of ENSO event in terms of its peak location in the equatorial Pacific. Final warming The final reversal of zonal mean zonal winds in the stratospheric polar vortex of both hemispheres at the end of each winter. The winds then remain easterly until the next fall. Hadley cell A thermally driven and zonally symmetric circulation consisting of the equatorward movement of the trade winds between about latitude 30 ∘ and the equator in each hemisphere, ascent near the equator, poleward flow aloft, and, finally, descent peaking near latitude 30 ∘ . Hypsometric equation By taking the vertical integral of the hydrostatic equation, it can be shown that vertical distance between two pressure levels is proportional to the mean temperature. Madden‐Julian Oscillation (MJO) The dominant organized fluctuation in tropical weather on weekly to monthly time scales.…”
Section: Glossarymentioning
confidence: 99%