Defining the polar vortex edge from an N 2 O:potential temperature correlation

Jeffery B. Greenblatt; Hans‐Jürg Jost; Max Loewenstein; James R. Podolske; T. Paul Bui; Dale F. Hurst; James W. Elkins; Robert L. Herman; Christopher R. Webster; Sue M. Schauffler; Elliot L. Atlas; Paul A. Newman; Leslie R. Lait; Melanie Müller; Andreas Engel; Ulrich Schmidt

Journal ArticleOPEN ACCESS

Defining the polar vortex edge from an N 2 O:potential temperature correlation

Greenblatt J
Jost H
Loewenstein M
et al.

Journal of Geophysical Research: Atmospheres (2002) 107(D20)

DOI: 10.1029/2001jd000575

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Abstract

A prerequisite to studying phenomena in the winter stratospheric polar vortex is the separation of measurements inside and outside the dynamical barrier of the vortex edge. We describe a technique to accurately determine the inner edge of the vortex boundary region from measurements of potential temperature and a trace gas, such as N 2 O, and apply it to in situ aircraft and balloon measurements from the SOLVE/THESEO 2000 Arctic campaign. The method may be used to refine the Nash algorithm, which, due to the inherently coarser resolution of potential vorticity on which it is dependent, may misidentify the inner edge by more than 400 km and omit the identification of small, extravortex filaments within the vortex.

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APA

Greenblatt, J. B., Jost, H., Loewenstein, M., Podolske, J. R., Bui, T. P., Hurst, D. F., … Schmidt, U. (2002). Defining the polar vortex edge from an N 2 O:potential temperature correlation. Journal of Geophysical Research: Atmospheres, 107(D20). https://doi.org/10.1029/2001jd000575

Defining the polar vortex edge from an N 2 O:potential temperature correlation

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