Evidence for a k-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere

Guglielmo Lacorata; Erik Aurell; Bernard Legras; Angelo Vulpiani

doi:10.1175/JAS-3292.1

Evidence for a k^-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere

Guglielmo Lacorata, Erik Aurell, Bernard Legras, Angelo Vulpiani

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Abstract

The EOLE experiment is revisited to study turbulent processes in the lower stratosphere circulation from a Lagrangian viewpoint and to resolve a discrepancy on the slope of the atmospheric energy spectrum between the work of Morel and Larchevêque and recent studies using aircraft data. Relative dispersion of balloon pairs is studied by calculating the finite-scale Lyapunov exponent, ah exit-time-based technique that is particularly efficient in cases in which processes with different spatial scales are interfering. The main goal is to reconciliate the EOLE dataset with recent studies supporting a k^-5/3 energy spectrum in the 100-1000-km range. The results also show exponential separation at smaller scales, with a characteristic time of order 1 day, and agree with the standard diffusion of about 10 ⁷ m² s^-1 at large scales. A remaining question is the origin of a k^-5/3 spectrum in the mesoscale range between 100 and 1000 km.

Original language	English
Pages (from-to)	2936-2942
Number of pages	7
Journal	Journal of the Atmospheric Sciences
Volume	61
Issue number	23
DOIs	https://doi.org/10.1175/JAS-3292.1
Publication status	Published - 1 Dec 2004

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title = "Evidence for a k-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere",

abstract = "The EOLE experiment is revisited to study turbulent processes in the lower stratosphere circulation from a Lagrangian viewpoint and to resolve a discrepancy on the slope of the atmospheric energy spectrum between the work of Morel and Larchev{\^e}que and recent studies using aircraft data. Relative dispersion of balloon pairs is studied by calculating the finite-scale Lyapunov exponent, ah exit-time-based technique that is particularly efficient in cases in which processes with different spatial scales are interfering. The main goal is to reconciliate the EOLE dataset with recent studies supporting a k-5/3 energy spectrum in the 100-1000-km range. The results also show exponential separation at smaller scales, with a characteristic time of order 1 day, and agree with the standard diffusion of about 10 7 m2 s-1 at large scales. A remaining question is the origin of a k-5/3 spectrum in the mesoscale range between 100 and 1000 km.",

author = "Guglielmo Lacorata and Erik Aurell and Bernard Legras and Angelo Vulpiani",

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T1 - Evidence for a k-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere

AU - Lacorata, Guglielmo

AU - Aurell, Erik

AU - Legras, Bernard

AU - Vulpiani, Angelo

PY - 2004/12/1

Y1 - 2004/12/1

N2 - The EOLE experiment is revisited to study turbulent processes in the lower stratosphere circulation from a Lagrangian viewpoint and to resolve a discrepancy on the slope of the atmospheric energy spectrum between the work of Morel and Larchevêque and recent studies using aircraft data. Relative dispersion of balloon pairs is studied by calculating the finite-scale Lyapunov exponent, ah exit-time-based technique that is particularly efficient in cases in which processes with different spatial scales are interfering. The main goal is to reconciliate the EOLE dataset with recent studies supporting a k-5/3 energy spectrum in the 100-1000-km range. The results also show exponential separation at smaller scales, with a characteristic time of order 1 day, and agree with the standard diffusion of about 10 7 m2 s-1 at large scales. A remaining question is the origin of a k-5/3 spectrum in the mesoscale range between 100 and 1000 km.

AB - The EOLE experiment is revisited to study turbulent processes in the lower stratosphere circulation from a Lagrangian viewpoint and to resolve a discrepancy on the slope of the atmospheric energy spectrum between the work of Morel and Larchevêque and recent studies using aircraft data. Relative dispersion of balloon pairs is studied by calculating the finite-scale Lyapunov exponent, ah exit-time-based technique that is particularly efficient in cases in which processes with different spatial scales are interfering. The main goal is to reconciliate the EOLE dataset with recent studies supporting a k-5/3 energy spectrum in the 100-1000-km range. The results also show exponential separation at smaller scales, with a characteristic time of order 1 day, and agree with the standard diffusion of about 10 7 m2 s-1 at large scales. A remaining question is the origin of a k-5/3 spectrum in the mesoscale range between 100 and 1000 km.

U2 - 10.1175/JAS-3292.1

DO - 10.1175/JAS-3292.1

M3 - Article

AN - SCOPUS:11844270405

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JO - Journal of the Atmospheric Sciences

JF - Journal of the Atmospheric Sciences

IS - 23

ER -

Evidence for a k-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere

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Evidence for a k^-5/3 spectrum from the EOLE Lagrangian balloons in the low stratosphere