We prove the global existence of non-negative variational solutions to the “drift diffusion” evolution equation under variational boundary condition. Despite the lack of a maximum principle for fourth order equations, non-negative solutions can be obtained as a limit of a variational approximation scheme by exploiting the particular structure of this equation, which is the gradient flow of the (perturbed) Fisher information functional with respect to the Kantorovich–Rubinstein–Wasserstein distance between probability measures. We also study long-time behavior of the solutions, proving their exponential decay to the equilibrium state when the potential is uniformly convex.
The Wasserstein gradient flow of the Fisher information and the Quantum drift-diffusion equation
GIANAZZA, UGO PIETRO;SAVARE', GIUSEPPE;TOSCANI, GIUSEPPE
2009-01-01
Abstract
We prove the global existence of non-negative variational solutions to the “drift diffusion” evolution equation under variational boundary condition. Despite the lack of a maximum principle for fourth order equations, non-negative solutions can be obtained as a limit of a variational approximation scheme by exploiting the particular structure of this equation, which is the gradient flow of the (perturbed) Fisher information functional with respect to the Kantorovich–Rubinstein–Wasserstein distance between probability measures. We also study long-time behavior of the solutions, proving their exponential decay to the equilibrium state when the potential is uniformly convex.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
