Dynamics Over Homogeneous Spaces
We present the Euler-Lagrange and Hamilton's equations for a system whose configuration space is a unified product Lie group $G=M\bowtie_{\gamma} H$, for some $\gamma:M\times M \to H$. By reduction, then, we obtain the Euler-Lagrange type and Hamilton's type equations of the same form for...
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| creator | Uçgun, Filiz Çağatay Esen, Oğul Sütlü, Serkan |
| description | We present the Euler-Lagrange and Hamilton's equations for a system whose
configuration space is a unified product Lie group $G=M\bowtie_{\gamma} H$, for
some $\gamma:M\times M \to H$. By reduction, then, we obtain the Euler-Lagrange
type and Hamilton's type equations of the same form for the quotient space
$M\cong G/H$, although it is not necessarily a Lie group. We observe, through
further reduction, that it is possible to formulate the Euler-Poincar\'{e} type
and Lie-Poisson type equations on the corresponding quotient $\mathfrak{m}\cong
\mathfrak{g}/\mathfrak{h}$ of Lie algebras, which is not a priori a Lie
algebra. Moreover, we realize the $n$th order iterated tangent group $T^{(n)}G$
of a Lie group $G$ as an extension of the $n$th order tangent group $T^nG$ of
the same type. More precisely, $\mathfrak{g}$ being the Lie algebra of $G$,
$T^{(n)}G \cong \mathfrak{g}^{\times \,2^n-1-n} \bowtie_\gamma T^nG$ for some
$\gamma:\mathfrak{g}^{\times \,2^n-1-n} \times \mathfrak{g}^{\times \,2^n-1-n}
\to T^nG$. We thus obtain the $n$th order Euler-Lagrange (and then the $n$th
order Euler-Poincar\'e) equations over $T^nG$ by reduction from those on
$T(T^{n-1}G)$. Finally, we illustrate our results in the realm of the Kepler
problem, and the non-linear tokamak plasma dynamics. |
| doi_str_mv | 10.48550/arxiv.2404.12101 |
| format | Article |
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configuration space is a unified product Lie group $G=M\bowtie_{\gamma} H$, for
some $\gamma:M\times M \to H$. By reduction, then, we obtain the Euler-Lagrange
type and Hamilton's type equations of the same form for the quotient space
$M\cong G/H$, although it is not necessarily a Lie group. We observe, through
further reduction, that it is possible to formulate the Euler-Poincar\'{e} type
and Lie-Poisson type equations on the corresponding quotient $\mathfrak{m}\cong
\mathfrak{g}/\mathfrak{h}$ of Lie algebras, which is not a priori a Lie
algebra. Moreover, we realize the $n$th order iterated tangent group $T^{(n)}G$
of a Lie group $G$ as an extension of the $n$th order tangent group $T^nG$ of
the same type. More precisely, $\mathfrak{g}$ being the Lie algebra of $G$,
$T^{(n)}G \cong \mathfrak{g}^{\times \,2^n-1-n} \bowtie_\gamma T^nG$ for some
$\gamma:\mathfrak{g}^{\times \,2^n-1-n} \times \mathfrak{g}^{\times \,2^n-1-n}
\to T^nG$. We thus obtain the $n$th order Euler-Lagrange (and then the $n$th
order Euler-Poincar\'e) equations over $T^nG$ by reduction from those on
$T(T^{n-1}G)$. Finally, we illustrate our results in the realm of the Kepler
problem, and the non-linear tokamak plasma dynamics.</description><identifier>DOI: 10.48550/arxiv.2404.12101</identifier><language>eng</language><subject>Mathematics - Differential Geometry ; Mathematics - Mathematical Physics ; Physics - Mathematical Physics</subject><creationdate>2024-04</creationdate><rights>http://creativecommons.org/licenses/by/4.0</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>228,230,776,881</link.rule.ids><linktorsrc>$$Uhttps://arxiv.org/abs/2404.12101$$EView_record_in_Cornell_University$$FView_record_in_$$GCornell_University$$Hfree_for_read</linktorsrc><backlink>$$Uhttps://doi.org/10.48550/arXiv.2404.12101$$DView paper in arXiv$$Hfree_for_read</backlink></links><search><creatorcontrib>Uçgun, Filiz Çağatay</creatorcontrib><creatorcontrib>Esen, Oğul</creatorcontrib><creatorcontrib>Sütlü, Serkan</creatorcontrib><title>Dynamics Over Homogeneous Spaces</title><description>We present the Euler-Lagrange and Hamilton's equations for a system whose
configuration space is a unified product Lie group $G=M\bowtie_{\gamma} H$, for
some $\gamma:M\times M \to H$. By reduction, then, we obtain the Euler-Lagrange
type and Hamilton's type equations of the same form for the quotient space
$M\cong G/H$, although it is not necessarily a Lie group. We observe, through
further reduction, that it is possible to formulate the Euler-Poincar\'{e} type
and Lie-Poisson type equations on the corresponding quotient $\mathfrak{m}\cong
\mathfrak{g}/\mathfrak{h}$ of Lie algebras, which is not a priori a Lie
algebra. Moreover, we realize the $n$th order iterated tangent group $T^{(n)}G$
of a Lie group $G$ as an extension of the $n$th order tangent group $T^nG$ of
the same type. More precisely, $\mathfrak{g}$ being the Lie algebra of $G$,
$T^{(n)}G \cong \mathfrak{g}^{\times \,2^n-1-n} \bowtie_\gamma T^nG$ for some
$\gamma:\mathfrak{g}^{\times \,2^n-1-n} \times \mathfrak{g}^{\times \,2^n-1-n}
\to T^nG$. We thus obtain the $n$th order Euler-Lagrange (and then the $n$th
order Euler-Poincar\'e) equations over $T^nG$ by reduction from those on
$T(T^{n-1}G)$. Finally, we illustrate our results in the realm of the Kepler
problem, and the non-linear tokamak plasma dynamics.</description><subject>Mathematics - Differential Geometry</subject><subject>Mathematics - Mathematical Physics</subject><subject>Physics - Mathematical Physics</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotzrsOgjAUgOEuDgZ9ACd5AbCnFyijwQsmJgyyk3raGhK5BCKRtzei07_9-QjZAA2FkpLudP-uxpAJKkJgQGFJ_MPU6LrCwc9H2_tZW7cP29j2Nfi3TqMdVmTh9HOw6389UpyORZoF1_x8SffXQEcxBCANMsGkBAvgHHfGRCbGhHKZKMUcam6lEg4SRmOOmCCNDaBlisu7MIp7ZPvbzsSy66ta91P5pZYzlX8AevM3eQ</recordid><startdate>20240418</startdate><enddate>20240418</enddate><creator>Uçgun, Filiz Çağatay</creator><creator>Esen, Oğul</creator><creator>Sütlü, Serkan</creator><scope>AKZ</scope><scope>GOX</scope></search><sort><creationdate>20240418</creationdate><title>Dynamics Over Homogeneous Spaces</title><author>Uçgun, Filiz Çağatay ; Esen, Oğul ; Sütlü, Serkan</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a671-15dc242551e11ff3fdd6d7c90359882fca3e584f192073cc9c07d1ce2835b4d83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Mathematics - Differential Geometry</topic><topic>Mathematics - Mathematical Physics</topic><topic>Physics - Mathematical Physics</topic><toplevel>online_resources</toplevel><creatorcontrib>Uçgun, Filiz Çağatay</creatorcontrib><creatorcontrib>Esen, Oğul</creatorcontrib><creatorcontrib>Sütlü, Serkan</creatorcontrib><collection>arXiv Mathematics</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Uçgun, Filiz Çağatay</au><au>Esen, Oğul</au><au>Sütlü, Serkan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Dynamics Over Homogeneous Spaces</atitle><date>2024-04-18</date><risdate>2024</risdate><abstract>We present the Euler-Lagrange and Hamilton's equations for a system whose
configuration space is a unified product Lie group $G=M\bowtie_{\gamma} H$, for
some $\gamma:M\times M \to H$. By reduction, then, we obtain the Euler-Lagrange
type and Hamilton's type equations of the same form for the quotient space
$M\cong G/H$, although it is not necessarily a Lie group. We observe, through
further reduction, that it is possible to formulate the Euler-Poincar\'{e} type
and Lie-Poisson type equations on the corresponding quotient $\mathfrak{m}\cong
\mathfrak{g}/\mathfrak{h}$ of Lie algebras, which is not a priori a Lie
algebra. Moreover, we realize the $n$th order iterated tangent group $T^{(n)}G$
of a Lie group $G$ as an extension of the $n$th order tangent group $T^nG$ of
the same type. More precisely, $\mathfrak{g}$ being the Lie algebra of $G$,
$T^{(n)}G \cong \mathfrak{g}^{\times \,2^n-1-n} \bowtie_\gamma T^nG$ for some
$\gamma:\mathfrak{g}^{\times \,2^n-1-n} \times \mathfrak{g}^{\times \,2^n-1-n}
\to T^nG$. We thus obtain the $n$th order Euler-Lagrange (and then the $n$th
order Euler-Poincar\'e) equations over $T^nG$ by reduction from those on
$T(T^{n-1}G)$. Finally, we illustrate our results in the realm of the Kepler
problem, and the non-linear tokamak plasma dynamics.</abstract><doi>10.48550/arxiv.2404.12101</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Mathematics - Differential Geometry Mathematics - Mathematical Physics Physics - Mathematical Physics |
| title | Dynamics Over Homogeneous Spaces |
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