info:eu-repo/semantics/article
Schrödinger link between nonequilibrium thermodynamics and Fisher information
Fecha
2002-10Registro en:
Frieden, B.R.; Plastino, Ángel Ricardo; Plastino, Ángel Ricardo; Soffer, B.H.; Schrödinger link between nonequilibrium thermodynamics and Fisher information; American Physical Society; Physical Review E: Statistical Physics, Plasmas, Fluids and Related Interdisciplinary Topics; 66; 4; 10-2002; 1-8
1063-651X
CONICET Digital
CONICET
Autor
Frieden, B.R.
Plastino, Ángel Ricardo
Plastino, Ángel Ricardo
Soffer, B.H.
Resumen
It is known that equilibrium thermodynamics can be deduced from a constrained Fisher information extemizing process. We show here that, more generally, both nonequilibrium and equilibrium thermodynamics can be obtained from such a Fisher treatment. Equilibrium thermodynamics corresponds to the ground-state solution, and nonequilibrium thermodynamics corresponds to excited-state solutions, of a Schrödinger wave equation (SWE). That equation appears as an output of the constrained variational process that extremizes Fisher information. Both equilibrium and nonequilibrium situations can thereby be tackled by one formalism that clearly exhibits the fact that thermodynamics and quantum mechanics can both be expressed in terms of a formal SWE, out of a common informational basis. As an application, we discuss viscosity in dilute gases.