3D-flows generated by the curl of a vector potential & Maurer-Cartan equations

Oğul Esen; Partha Guha; Hasan Gümral

doi:10.55730/1300-0098.3330

3D-flows generated by the curl of a vector potential & Maurer-Cartan equations

Oğul Esen
, Partha Guha
, Hasan Gümral

Mathematics

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

5 Scopus citations

Abstract

We examine 3D flows (Formula Presented) admitting vector identity Mv = ∇×A for a multiplier M and a potential field A. It is established that, for those systems, one can complete the vector field v into a basis fitting an sl(2) -algebra. Accordingly, in terms of covariant quantities, the structure equations determine a set of equations in Maurer-Cartan form. This realization permits one to obtain the potential field as well as to investigate the (bi-)Hamiltonian character of the system. The latter occurs if the system has a time-independent first integral. In order to exhibit the theoretical results on some concrete cases, three examples are provided, namely the Gulliot system, a system with a nonintegrable potential, and the Darboux-Halphen system in symmetric polynomials.

Original language	British English
Pages (from-to)	3234-3244
Number of pages	11
Journal	Turkish Journal of Mathematics
Volume	46
Issue number	8
DOIs	https://doi.org/10.55730/1300-0098.3330
State	Published - 2022

Keywords

3d-flows
Bi-hamiltonian systems
Maurer-cartan equations
Vector potential

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10.55730/1300-0098.3330

Cite this

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title = "3D-flows generated by the curl of a vector potential \& Maurer-Cartan equations",

abstract = "We examine 3D flows (Formula Presented) admitting vector identity Mv = ∇×A for a multiplier M and a potential field A. It is established that, for those systems, one can complete the vector field v into a basis fitting an sl(2) -algebra. Accordingly, in terms of covariant quantities, the structure equations determine a set of equations in Maurer-Cartan form. This realization permits one to obtain the potential field as well as to investigate the (bi-)Hamiltonian character of the system. The latter occurs if the system has a time-independent first integral. In order to exhibit the theoretical results on some concrete cases, three examples are provided, namely the Gulliot system, a system with a nonintegrable potential, and the Darboux-Halphen system in symmetric polynomials.",

keywords = "3d-flows, Bi-hamiltonian systems, Maurer-cartan equations, Vector potential",

author = "Oğul Esen and Partha Guha and Hasan G{\"u}mral",

note = "Funding Information: PG thanks Khalifa University of Science and Technology for its continued support towards this research work under the grant number FSU-2021-014. Publisher Copyright: {\textcopyright} T{\"U}BİTAK",

year = "2022",

doi = "10.55730/1300-0098.3330",

language = "British English",

volume = "46",

pages = "3234--3244",

journal = "Turkish Journal of Mathematics",

issn = "1300-0098",

publisher = "TUBITAK",

number = "8",

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TY - JOUR

T1 - 3D-flows generated by the curl of a vector potential & Maurer-Cartan equations

AU - Esen, Oğul

AU - Guha, Partha

AU - Gümral, Hasan

N1 - Funding Information: PG thanks Khalifa University of Science and Technology for its continued support towards this research work under the grant number FSU-2021-014. Publisher Copyright: © TÜBİTAK

PY - 2022

Y1 - 2022

N2 - We examine 3D flows (Formula Presented) admitting vector identity Mv = ∇×A for a multiplier M and a potential field A. It is established that, for those systems, one can complete the vector field v into a basis fitting an sl(2) -algebra. Accordingly, in terms of covariant quantities, the structure equations determine a set of equations in Maurer-Cartan form. This realization permits one to obtain the potential field as well as to investigate the (bi-)Hamiltonian character of the system. The latter occurs if the system has a time-independent first integral. In order to exhibit the theoretical results on some concrete cases, three examples are provided, namely the Gulliot system, a system with a nonintegrable potential, and the Darboux-Halphen system in symmetric polynomials.

AB - We examine 3D flows (Formula Presented) admitting vector identity Mv = ∇×A for a multiplier M and a potential field A. It is established that, for those systems, one can complete the vector field v into a basis fitting an sl(2) -algebra. Accordingly, in terms of covariant quantities, the structure equations determine a set of equations in Maurer-Cartan form. This realization permits one to obtain the potential field as well as to investigate the (bi-)Hamiltonian character of the system. The latter occurs if the system has a time-independent first integral. In order to exhibit the theoretical results on some concrete cases, three examples are provided, namely the Gulliot system, a system with a nonintegrable potential, and the Darboux-Halphen system in symmetric polynomials.

KW - 3d-flows

KW - Bi-hamiltonian systems

KW - Maurer-cartan equations

KW - Vector potential

UR - https://www.scopus.com/pages/publications/85143765411

U2 - 10.55730/1300-0098.3330

DO - 10.55730/1300-0098.3330

M3 - Article

AN - SCOPUS:85143765411

SN - 1300-0098

VL - 46

SP - 3234

EP - 3244

JO - Turkish Journal of Mathematics

JF - Turkish Journal of Mathematics

IS - 8

ER -

3D-flows generated by the curl of a vector potential & Maurer-Cartan equations

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Keywords

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