The least action admissibility principle

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Gimperlein, H. and Grinfeld, M. and Knops, R.J. and Slemrod, M. (2025) The least action admissibility principle. Archive for Rational Mechanics and Analysis, 249 (2). 22. ISSN 1432-0673 (https://doi.org/10.1007/s00205-025-02094-z)

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Abstract

This paper provides a new admissibility criterion for choosing physically relevant weak solutions of the equations of Lagrangian and continuum mechanics when non-uniqueness of solutions to the initial value problem occurs. The criterion is motivated by the classical least action principle but is now applied to initial value problems which exhibit non-unique solutions. Examples are provided for Lagrangian mechanics and the Euler equations of barotropic fluid mechanics. In particular, we show that the least action admissibility principle prefers the classical two shock solution to the Riemann initial value problem to certain solutions generated by convex integration. On the other hand, Dafermos’s entropy criterion prefers convex integration solutions to the two shock solutions. Furthermore, when the pressure is given by p(ρ) = ρ2, we show that the two shock solution is always preferred whenever the convex integration solutions are defined for the same initial data.

ORCID iDs

Gimperlein, H., Grinfeld, M. ORCID logoORCID: https://orcid.org/0000-0002-3897-8819, Knops, R.J. and Slemrod, M.;
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