Erasmo Caponio, Dario Corona, Roberto Giambò, Paolo Piccione
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引用次数: 0
摘要
我们考虑一个自治的、不确定的拉格朗日 L,它允许一个无限小的对称 K,其相关的诺特电荷在每个切线空间都是线性的。我们的重点在于研究具有固定能量的欧拉-拉格朗日方程的解,这些解将给定点 p 与 K 的流线 \(\gamma =\gamma (t)\) 连接起来,而流线不穿过 p。因此,我们导出了一个涉及 "到达时间 "t 的微分方程,该微分方程被视为满足诺特电荷定义的半自主约束的连接路径的无限维流形上的一个函数。当 L 在速度上是 2 度正均质时,所得到的方程建立了一个变分原理,它扩展了静止时空中的费马原理。此外,我们还分析了诺特电荷是仿射的情况。
Fixed energy solutions to the Euler-Lagrange equations of an indefinite Lagrangian with affine Noether charge
We consider an autonomous, indefinite Lagrangian L admitting an infinitesimal symmetry K whose associated Noether charge is linear in each tangent space. Our focus lies in investigating solutions to the Euler-Lagrange equations having fixed energy and that connect a given point p to a flow line \(\gamma =\gamma (t)\) of K that does not cross p. By utilizing the invariance of L under the flow of K, we simplify the problem into a two-point boundary problem. Consequently, we derive an equation that involves the differential of the “arrival time” t, seen as a functional on the infinite dimensional manifold of connecting paths satisfying the semi-holonomic constraint defined by the Noether charge. When L is positively homogeneous of degree 2 in the velocities, the resulting equation establishes a variational principle that extends the Fermat’s principle in a stationary spacetime. Furthermore, we also analyze the scenario where the Noether charge is affine.
期刊介绍:
This journal, the oldest scientific periodical in Italy, was originally edited by Barnaba Tortolini and Francesco Brioschi and has appeared since 1850. Nowadays it is managed by a nonprofit organization, the Fondazione Annali di Matematica Pura ed Applicata, c.o. Dipartimento di Matematica "U. Dini", viale Morgagni 67A, 50134 Firenze, Italy, e-mail annali@math.unifi.it).
A board of Italian university professors governs the Fondazione and appoints the editors of the journal, whose responsibility it is to supervise the refereeing process. The names of governors and editors appear on the front page of each issue. Their addresses appear in the title pages of each issue.