MECHANICAL MODELS OF MAXWELL DEMON WITH NONINVARIANT PHASE VOLUME

This paper is concerned with the dynamical basis of Maxwell's demon within the framework of classical mechanics. We show that the operation of the demon, whose effect is equivalent to exerting a velocity-dependent force on the gas molecules, can be modeled as a suitable force field without disobeying any laws in classical mechanics. An essential requirement for the models is that the phase-space volume should be noninvariant during time evolution. The necessity of the requirement can be established under general conditions by showing that (1) a mechanical device is able to violate the second law of thermodynamics if and only if it can be used to generate and sustain a robust momentum flow inside an isolated system, and (2) no systems with invariant phase volume are able to support such a flow. The invariance of phase volume appears as an independent factor responsible for the validity of the second law of thermodynamics. When this requirement is removed, explicit mechanical models of Maxwell's demon can exist.OpticsPhysics, Atomic, Molecular & ChemicalSCI(E)17ARTICLE84598-46054