Lagrangian formalism for nonlinear second-order Riccati systems: One-dimensional integrability and two-dimensional superintegrability

Cariñena, José F.; Rañada, Manuel F.; Santander, Mariano

doi:10.1063/1.1920287

Cited by 119 publications

(130 citation statements)

References 39 publications

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“…which coincides with the results in [5]. In fact it has been shown by Cariñena et al that this first integral plays the role of the Hamiltonian for (5.18).…”

Section: A Liénard Type Nonlinear Oscillator -The Second Order Riccatsupporting

confidence: 91%

Solutions of some second order ODEs by the extended Prelle-Singer method and symmetries

Choudhury¹,

Guha²,

Khanra³

2008

JNMP

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“…which coincides with the results in [5]. In fact it has been shown by Cariñena et al that this first integral plays the role of the Hamiltonian for (5.18).…”

Section: A Liénard Type Nonlinear Oscillator -The Second Order Riccatsupporting

confidence: 91%

Solutions of some second order ODEs by the extended Prelle-Singer method and symmetries

Choudhury¹,

Guha²,

Khanra³

2008

JNMP

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“…The solution x2 = π/2 defines a plane through the origin of space intersecting the unit sphere in a great circle. The 1st solution x1 = λ corresponds for a motion around the great circle with unit speed whereas the 2nd solution 1 1 x    corresponds for a motion around the great circle with a velocity 1   . This may suggest that the geodesic dynamics in the ENSL approach are not characterized just by a universal speed, but possibly by other universal velocities, which are proportional to 1   .…”

Section: Exponential Non-standard Lagrangians In Differential Geometrmentioning

confidence: 99%

From Classical to Discrete Gravity through Exponential Non-Standard Lagrangians in General Relativity

El-Nabulsi

2015

Mathematics

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Abstract:Recently, non-standard Lagrangians have gained a growing importance in theoretical physics and in the theory of non-linear differential equations. However, their formulations and implications in general relativity are still in their infancies despite some advances in contemporary cosmology. The main aim of this paper is to fill the gap. Though non-standard Lagrangians may be defined by a multitude form, in this paper, we considered the exponential type. One basic feature of exponential non-standard Lagrangians concerns the modified Euler-Lagrange equation obtained from the standard variational analysis. Accordingly, when applied to spacetime geometries, one unsurprisingly expects modified geodesic equations. However, when taking into account the time-like paths parameterization constraint, remarkably, it was observed that mutually discrete gravity and discrete spacetime emerge in the theory. Two different independent cases were obtained: A geometrical manifold with new spacetime coordinates augmented by a metric signature change and a geometrical manifold characterized by a discretized spacetime metric. Both cases give raise to Einstein's field equations yet the gravity is discretized and originated from "spacetime discreteness". A number of mathematical and physical implications of these results were discussed though this paper and perspectives are given accordingly.

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“…Certain nonstandard Lagrangian and Hamiltonian dynamical systems [1][2][3] encompass very interesting classes of nonlinear oscillators and admit fascinating dynamical properties [4][5][6] such as isochronous oscillations, linearization, nonlocal transformations and so on [7][8][9][10][11][12][13]. In particular, the Liénard class of oscillators appear in the study of a wide range of fields such as seismology [14], biological regulatory systems [15], in the study of a self graviting stellar gas cloud [16], optoelectronics, fluid mechanics [17].…”

Section: Introductionmentioning

confidence: 99%

Two-dimensional isochronous nonstandard Hamiltonian systems

Devi

Pradeep²,

Chandrasekar

et al. 2016

J Eng Math

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Abstract. We identify a generic class of two dimensional nonstandard Hamiltonian systems which exhibit isochronous behaviour. This class of systems belongs to the two dimensional mixed Liénard-type equations and is obtained by generalizing the scalar modified Emden equation (MEE) to two dimensions. We show that the generalized class of equations admits a Hamiltonian description and exhibits periodic and quasiperiodic oscillations for suitable choice of parameters and also PT symmetric property.

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Lagrangian formalism for nonlinear second-order Riccati systems: One-dimensional integrability and two-dimensional superintegrability

Cited by 119 publications

References 39 publications

Solutions of some second order ODEs by the extended Prelle-Singer method and symmetries

Solutions of some second order ODEs by the extended Prelle-Singer method and symmetries

From Classical to Discrete Gravity through Exponential Non-Standard Lagrangians in General Relativity

Two-dimensional isochronous nonstandard Hamiltonian systems

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