Implications of Kunita–Itô–Wentzell Formula for k-Forms in Stochastic Fluid Dynamics

Aythami Bethencourt de Leon; Darryl Holm; Erwin Luesink; So Takao

doi:10.1007/s00332-020-09613-0

Implications of Kunita–Itô–Wentzell Formula for k-Forms in Stochastic Fluid Dynamics

Aythami Bethencourt de Leon
, Darryl Holm
, Erwin Luesink
, So Takao

Research output: Contribution to journal › Article › Academic › peer-review

15 Citations (Scopus)

22 Downloads (Pure)

Abstract

We extend the Itô–Wentzell formula for the evolution of a time-dependent stochastic field along a semimartingale to k-form-valued stochastic processes. The result is the Kunita–Itô–Wentzell (KIW) formula for k-forms. We also establish a correspondence between the KIW formula for k-forms derived here and a certain class of stochastic fluid dynamics models which preserve the geometric structure of deterministic ideal fluid dynamics. This geometric structure includes Eulerian and Lagrangian variational principles, Lie–Poisson Hamiltonian formulations and natural analogues of the Kelvin circulation theorem, all derived in the stochastic setting.

Original language	English
Pages (from-to)	1421-1454
Journal	Journal of nonlinear science
Volume	30
DOIs	https://doi.org/10.1007/s00332-020-09613-0
Publication status	Published - 11 Feb 2020
Externally published	Yes

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title = "Implications of Kunita–It{\^o}–Wentzell Formula for k-Forms in Stochastic Fluid Dynamics",

abstract = "We extend the It{\^o}–Wentzell formula for the evolution of a time-dependent stochastic field along a semimartingale to k-form-valued stochastic processes. The result is the Kunita–It{\^o}–Wentzell (KIW) formula for k-forms. We also establish a correspondence between the KIW formula for k-forms derived here and a certain class of stochastic fluid dynamics models which preserve the geometric structure of deterministic ideal fluid dynamics. This geometric structure includes Eulerian and Lagrangian variational principles, Lie–Poisson Hamiltonian formulations and natural analogues of the Kelvin circulation theorem, all derived in the stochastic setting.",

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AU - Bethencourt de Leon, Aythami

AU - Holm, Darryl

AU - Luesink, Erwin

AU - Takao, So

PY - 2020/2/11

Y1 - 2020/2/11

N2 - We extend the Itô–Wentzell formula for the evolution of a time-dependent stochastic field along a semimartingale to k-form-valued stochastic processes. The result is the Kunita–Itô–Wentzell (KIW) formula for k-forms. We also establish a correspondence between the KIW formula for k-forms derived here and a certain class of stochastic fluid dynamics models which preserve the geometric structure of deterministic ideal fluid dynamics. This geometric structure includes Eulerian and Lagrangian variational principles, Lie–Poisson Hamiltonian formulations and natural analogues of the Kelvin circulation theorem, all derived in the stochastic setting.

AB - We extend the Itô–Wentzell formula for the evolution of a time-dependent stochastic field along a semimartingale to k-form-valued stochastic processes. The result is the Kunita–Itô–Wentzell (KIW) formula for k-forms. We also establish a correspondence between the KIW formula for k-forms derived here and a certain class of stochastic fluid dynamics models which preserve the geometric structure of deterministic ideal fluid dynamics. This geometric structure includes Eulerian and Lagrangian variational principles, Lie–Poisson Hamiltonian formulations and natural analogues of the Kelvin circulation theorem, all derived in the stochastic setting.

U2 - 10.1007/s00332-020-09613-0

DO - 10.1007/s00332-020-09613-0

M3 - Article

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SP - 1421

EP - 1454

JO - Journal of nonlinear science

JF - Journal of nonlinear science

ER -

Implications of Kunita–Itô–Wentzell Formula for k-Forms in Stochastic Fluid Dynamics

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