Entropy production in thermostats II
arXiv:math/0610263 · doi:10.1007/s10955-007-9301-5
Abstract
We show that an arbitrary Anosov Gaussian thermostat close to equilibrium has positive entropy poduction unless the external field $E$ has a global potential. The configuration space is allowed to have any dimension and magnetic forces are also allowed. We also show the following non-perturbative result. Suppose a Gaussian thermostat satisfies \[K_{w}(Ï)+{1/4}|E_Ï|^2<0\] for every 2-plane $Ï$, where $K_{w}$ is the sectional curvature of the associated Weyl connection and $E_Ï$ is the orthogonal projection of $E$ onto $Ï$. Then the entropy production of any SRB measure is positive unless $E$ has a global potential. A related non-perturbative result is also obtained for certain generalized thermostats on surfaces.