Download
1 / 40
400 likes | 508 Views
Heat dissipation = entropy production. Surrounding environment. NEQ system. We study two paradigmatic models for driven systems sketched in figure 1. Asymmetric Random Walk. Brownian motion in periodic potential. Two main approaches are discussed in the literature. Donsker-Varadhan theory.
E N D
Heat dissipation = entropy production Surrounding environment NEQ system
We study two paradigmatic models for driven systems sketched in figure 1 Asymmetric Random Walk Brownian motion in periodic potential
Two main approaches are discussed in the literature Donsker-Varadhan theory Freidlin-Wentzell theory For
The purpose of this work is twofold The first Freidlin-Wentzell theory Donsker-Varadhan theory The second
Two theoretical explanations for the physical origin of the kink) 1. Pleimling and co-workers (Ref. 22, 23)
Two theoretical explanations for the physical origin of the kink) 1. Pleimling and co-workers (Ref. 22, 23)
Two theoretical explanations for the physical origin of the kink) 1. Pleimling and co-workers (Ref. 22, 23)
Two theoretical explanations for the physical origin of the kink) 2. Budini(Ref. 24)
: The numbers of hops to the +(-) direction : The distance
for for
for 1/z -1/z
for 1/z -1/z
Path probability with n nN n0 n1 n2 t 0 Dt 2Dt NDt ·· ·
with with
for for
for for
Solve 1. Solving eigenvalue problem directly [18] 2. Ritz variational method [30]
Path probability Stochastic action with Effective potential
Find Since For fixed
For small Small < a machine precision The calculation breaks down!! For
For large For large even for smaller rates
For , LDF agrees with ARW
