Related papers: Generalized Liénard systems with momentum-dependent mass: Isochronicity and bound states

Generalized Liénard systems with momentum-dependent mass: Isochronicity and bound states

URL: http://arxiv.org/abs/2412.09100v1
Date: Thu, 12 Dec 2024 09:27:57 GMT
Title: Generalized Liénard systems with momentum-dependent mass: Isochronicity and bound states
Authors: Bijan Bagchi, A. Ghose-Choudhury, Aritra Ghosh, Partha Guha,
Abstract summary: We explore some classical and quantum aspects of the nonlinear Li'enard equation $ddotx + k x dotx + omega2 x + (k2/9) x3 = 0$. We demonstrate that such an equation could be derived from an equation of the Levinson-Smith kind which is of the form $ddotz + J(z) dotz2 + F(z) dotz + G(z) = 0$.
Score: 6.412262542272846
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Abstract: In this paper, we explore some classical and quantum aspects of the nonlinear Li\'enard equation $\ddot{x} + k x \dot{x} + \omega^2 x + (k^2/9) x^3 = 0$, where $x=x(t)$ is a real variable and $k, \omega \in \mathbb{R}$. We demonstrate that such an equation could be derived from an equation of the Levinson-Smith kind which is of the form $\ddot{z} + J(z) \dot{z}^2 + F(z) \dot{z} + G(z) = 0$, where $z=z(t)$ is a real variable and $\{J(z), F(z), G(z)\}$ are suitable functions to be specified. It can further be mapped to the harmonic oscillator by making use of a nonlocal transformation, establishing its isochronicity. Computations employing the Jacobi last multiplier reveal that the system exhibits a bi-Hamiltonian character, i.e., there are two distinct types of Hamiltonians describing the system. For each of these, we perform a canonical quantization in the momentum representation and explore the possibility of bound states. While one of the Hamiltonians is seen to exhibit an equispaced spectrum with an infinite tower of states, the other one exhibits branching but can be solved exactly for certain choices of the parameters.

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