28 research outputs found
Driving-induced stability with long-range effects
We give a sufficient condition under which an applied rotation on medium
particles stabilizes a slow probe in the rotation center. The symmetric part of
the stiffness matrix thus gets a positive Lamb shift with respect to
equilibrium. For illustration we take diffusive medium particles with a
self-potential in the shape of a Mexican hat, high around the origin. There is
a short-range attraction between the medium particles and the heavier probe,
all immersed in an equilibrium thermal bath. For no or small rotation force on
the medium particles, the origin is an unstable fixed point for the probe and
the precise shape of the self-potential at large distances from the origin is
irrelevant for the statistical force there. Above a certain rotation threshold,
while the medium particles are still repelled from the origin, the probe
stabilizes there and more details of the medium-density at large distance start
to matter. The effect is robust around the quasi-static limit with rotation
threshold only weakly depending on the temperature but the stabilization gets
stronger at lower temperatures.Comment: 6 pages, 4 figure
On the Poisson equation for nonreversible Markov jump processes
We study the solution of the Poisson equation where is the
backward generator of an irreducible (finite) Markov jump process and is a
given centered state function. Bounds on are obtained using a graphical
representation derived from the Matrix Forest Theorem and using a relation with
mean first-passage times. Applications include estimating time-accumulated
differences during relaxation toward a steady nonequilibrium regime
Calorimetry for active systems
(Thermal) active systems are in physical contact with (at least) two
reservoirs: one which is often chemical or radiative and source of low entropy,
and one which can be identified with a thermal bath or environment in which
energy gets dissipated. Perturbing the temperature, the heat capacity measures
the excess heat in addition to the steady ever-existing dissipation. Simulating
AC-calorimetry, we numerically evaluate the heat capacity for run-and-tumble
particles in double-well and periodic potentials. Low-temperature Schottky-like
peaks show the role of activity and indicate shape transitions, while regimes
of negative heat capacity appear at higher propulsion speeds.Comment: 16 pages, 6 figure
Incoherent boundary conditions and metastates
In this contribution we discuss the role which incoherent boundary conditions
can play in the study of phase transitions. This is a question of particular
relevance for the analysis of disordered systems, and in particular of spin
glasses. For the moment our mathematical results only apply to ferromagnetic
models which have an exact symmetry between low-temperature phases. We give a
survey of these results and discuss possibilities to extend them to some
situations where many pure states can coexist. An idea of the proofs as well as
the reformulation of our results in the language of Newman-Stein metastates are
also presented.Comment: Published at http://dx.doi.org/10.1214/074921706000000176 in the IMS
Lecture Notes--Monograph Series
(http://www.imstat.org/publications/lecnotes.htm) by the Institute of
Mathematical Statistics (http://www.imstat.org
General no-go condition for stochastic pumping
The control of chemical dynamics requires understanding the effect of
time-dependent transition rates between states of chemo-mechanical molecular
configurations. Pumping refers to generating a net current, e.g. per period in
the time-dependence, through a cycle of consecutive states. The working of
artificial machines or synthesized molecular motors depends on it. In this
paper we give short and simple proofs of no-go theorems, some of which appeared
before but here with essential extensions to non-Markovian dynamics, including
the study of the diffusion limit. It allows to exclude certain protocols in the
working of chemical motors where only the depth of the energy well is changed
in time and not the barrier height between pairs of states. We also show how
pre-existing steady state currents are in general modified with a
multiplicative factor when this time-dependence is turned on.Comment: 8 pages; v2: minor changes, 1 reference adde
Static and dynamical nonequilibrium fluctuations
Various notions of fluctuations exist depending on the way one chooses to
measure them. We discuss two extreme cases (continuous measurement versus long
inter-measurement times) and we see their relation with entropy production and
with escape rates. A simple explanation of why the relative entropy satisfies a
Hamilton-Jacobi equation is added.Comment: 10 page