Generalized Lie symmetries and almost regular Lagrangians: a link between symmetry and dynamics

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY Journal of Physics Communications Pub Date : 2022-12-20 DOI:10.1088/2399-6528/acad63
A. Speliotopoulos
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Abstract

The generalized Lie symmetries of almost regular Lagrangians are studied, and their impact on the evolution of dynamical systems is determined. It is found that if the action has a generalized Lie symmetry, then the Lagrangian is necessarily singular; the converse is not true, as we show with a specific example. It is also found that the generalized Lie symmetry of the action is a Lie subgroup of the generalized Lie symmetry of the Euler–Lagrange equations of motion. The converse is once again not true, and there are systems for which the Euler–Lagrange equations of motion have a generalized Lie symmetry while the action does not, as we once again show through a specific example. Most importantly, it is shown that each generalized Lie symmetry of the action contributes one arbitrary function to the evolution of the dynamical system. The number of such symmetries gives a lower bound to the dimensionality of the family of curves emanating from any set of allowed initial data in the Lagrangian phase space. Moreover, if second- or higher-order Lagrangian constraints are introduced during the application of the Lagrangian constraint algorithm, these additional constraints could not have been due to the generalized Lie symmetry of the action.
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广义李对称与几乎正则拉格朗日:对称与动力学之间的联系
研究了几乎正则拉格朗日系统的广义李对称性,确定了它们对动力系统演化的影响。研究发现,如果作用具有广义李对称性,则拉格朗日量必然是奇异的;相反的情况是不正确的,正如我们用一个具体的例子所展示的那样。还发现作用的广义李对称性是欧拉-拉格朗日运动方程广义李对称的李子群。反之亦然,正如我们通过一个具体例子再次展示的那样,有些系统的欧拉-拉格朗日运动方程具有广义李对称性,而作用则没有。最重要的是,证明了作用的每个广义李对称性对动力系统的演化贡献了一个任意函数。这样的对称性的数量给出了源自拉格朗日相空间中任何一组允许的初始数据的曲线族的维数的下限。此外,如果在拉格朗日约束算法的应用过程中引入二阶或更高阶拉格朗日约束,这些额外的约束就不可能是由于作用的广义李对称性。
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来源期刊
Journal of Physics Communications
Journal of Physics Communications PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.60
自引率
0.00%
发文量
114
审稿时长
10 weeks
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