Zoltán Muzsnay scite author profile

The projective metrizability problem can be formulated as follows: under what conditions the geodesics of a given spray coincide with the geodesics of some Finsler space, as oriented curves. In Theorem 3.8 we reformulate the projective metrizability problem for a spray in terms of a first-order partial differential operator P_1 and a set of algebraic conditions on semi-basic 1-forms. We discuss the formal integrability of P_1 using two sufficient conditions provided by Cartan-Kähler theorem. We prove in Theorem 4.2 that the symbol of P_1 is involutive and hence one of the two conditions is always satisfied. While discussing the second condition, in Theorem 4.3 we prove that there is only one obstruction to the formal integrability of P_1, and this obstruction is due to the curvature tensor of the induced nonlinear connection. When the curvature obstruction is satisfied, the projective metrizability problem reduces to the discussion of the algebraic conditions, which as we show are always satisfied in the analytic case. Based on these results, we recover all classes of sprays that are known to be projectively metrizable: flat sprays, isotropic sprays, and arbitrary sprays on 1- and 2-dimensional manifolds. We provide examples of sprays that are projectively metrizable without being Finsler metrizable

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Projective and Finsler Metrizability: Parameterization-Rigidity of the Geodesics

Bucataru

Muzsnay

2012

Int. J. Math.

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In this work we show that for the geodesic spray S of a Finsler function F the most natural projective deformation S = S − 2λF C leads to a non-Finsler metrizable spray, for almost every value of λ ∈ R. This result shows how rigid is the metrizablility property with respect to certain reparameterizations of the geodesics. As a consequence we obtain that the projective class of an arbitrary spray contains infinitely many sprays that are not Finsler metrizable.

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Variational Principles for Second-Order Differential Equations - Application of the Spencer Theory to Characterize Variational Sprays

Grifone¹,

Muzsnay²

2000

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On the linearizability of 3-webs

Grifone¹,

Muzsnay²,

Saab³

2001

Nonlinear Analysis: Theory, Methods & Applications

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Zoltán Muzsnay

Variational Principles For Second-Order Differential Equations

Projective Metrizability and Formal Integrability

Projective and Finsler Metrizability: Parameterization-Rigidity of the Geodesics

Variational Principles for Second-Order Differential Equations - Application of the Spencer Theory to Characterize Variational Sprays

On the linearizability of 3-webs

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