TY - JOUR
T1 - Large deviation of the density profile in the steady state of the open symmetric simple exclusion process
AU - Derrida, B.
AU - Lebowitz, J. L.
AU - Speer, E. R.
N1 - Funding Information:
We thank L. Bertini, A. De Sole, D. Gabrielle, G. Giacomin, G. Jona-Lasinio, C. Landim, E. Lieb, J. Mallet-Paret, R. Nussbaum, E. Presutti, and R. Varadhan for very helpful discussions and communications. The work of J. L. Lebowitz was supported by NSF Grant DMR-9813268, AFOSR Grant F49620/0154, DIMACS and its supporting agencies, the NSF under contract STC-91-19999 and the N. J. Commission on Science and Technology, and NATO Grant PST.CLG.976552. J.L.L. and E. R. Speer acknowledge the hospitality of the I.H.E.S. in the spring of 2000, where this work was begun.
PY - 2002
Y1 - 2002
N2 - We consider an open one dimensional lattice gas on sites i = 1,..., N, with particles jumping independently with rate 1 to neighboring interior empty sites, the simple symmetric exclusion process. The particle fluxes at the left and right boundaries, corresponding to exchanges with reservoirs at different chemical potentials, create a stationary nonequilibrium state (SNS) with a steady flux of particles through the system. The mean density profile in this state, which is linear, describes the typical behavior of a macroscopic system, i.e., this profile occurs with probability 1 when N → ∞. The probability of microscopic configurations corresponding to some other profile ρ(x), x = i/N, has the asymptotic form exp[-Nℱ({ρ})]; ℱ is the large deviation functional. In contrast to equilibrium systems, for which ℱeq({ρ}) is just the integral of the appropriately normalized local free energy density, the ℱ we find here for the nonequilibrium system is a nonlocal function of ρ. This gives rise to the long range correlations in the SNS predicted by fluctuating hydrodynamics and suggests similar nonlocal behavior of ℱ general SNS, where the long range correlations have been observed experimentally.
AB - We consider an open one dimensional lattice gas on sites i = 1,..., N, with particles jumping independently with rate 1 to neighboring interior empty sites, the simple symmetric exclusion process. The particle fluxes at the left and right boundaries, corresponding to exchanges with reservoirs at different chemical potentials, create a stationary nonequilibrium state (SNS) with a steady flux of particles through the system. The mean density profile in this state, which is linear, describes the typical behavior of a macroscopic system, i.e., this profile occurs with probability 1 when N → ∞. The probability of microscopic configurations corresponding to some other profile ρ(x), x = i/N, has the asymptotic form exp[-Nℱ({ρ})]; ℱ is the large deviation functional. In contrast to equilibrium systems, for which ℱeq({ρ}) is just the integral of the appropriately normalized local free energy density, the ℱ we find here for the nonequilibrium system is a nonlocal function of ρ. This gives rise to the long range correlations in the SNS predicted by fluctuating hydrodynamics and suggests similar nonlocal behavior of ℱ general SNS, where the long range correlations have been observed experimentally.
KW - Large deviations
KW - Open system
KW - Stationary nonequilibrium state
KW - Symmetric simple exclusion process
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U2 - 10.1023/A:1014555927320
DO - 10.1023/A:1014555927320
M3 - Article
AN - SCOPUS:0036256962
SN - 0022-4715
VL - 107
SP - 599
EP - 634
JO - Journal of Statistical Physics
JF - Journal of Statistical Physics
IS - 3-4
ER -