A unified duality framework for barotropic, quantum and Korteweg fluids
Abstract
We investigate a dual variational formulation, in the spirit of Brenier, for several compressible fluid models: the compressible barotropic Euler system, the quantum Euler system, and the Euler-Korteweg system.
We identify a unified abstract framework encompassing all three systems, which enables a simultaneous analysis.
By introducing time-adaptive weights, we establish the consistency of the duality scheme on large time intervals.
We prove the existence of variational dual solutions to the corresponding Cauchy problems for continuous, vacuum-free initial data in spaces of finite Radon measures, and establish the absence of a duality gap.
As an application, we formulate and prove a 'Dafermos principle' for these models: no subsolution can dissipate the total entropy earlier or at a faster rate than the corresponding strong solution on its interval of existence.
We also discuss connections between our abstract consistency result and Brenier's shock-free substitutes for entropy solutions of Burgers' equation.
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