Jarzynski equality: Difference between revisions

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The Jarzynski equality is also known as the work relation or non-equilibrium work relation. According to this equality, the equilibrium Helmholtz energy function of a process, ${\displaystyle \Delta A}$, can be reconstructed by averaging the external work, ${\displaystyle W}$, performed in many nonequilibrium realizations of the process (Ref. 1 Eq. 2a):

${\displaystyle \exp \left({\frac {-\Delta A}{k_{B}T}}\right)=\left\langle \exp \left({\frac {-W}{k_{B}T}}\right)\right\rangle }$

or can be trivially re-written as (Ref. 1 Eq. 2b)

${\displaystyle \Delta A=-{\frac {1}{k_{B}T}}\ln \left\langle \exp \left({\frac {-W}{k_{B}T}}\right)\right\rangle }$

where ${\displaystyle k_{B}}$ is the Boltzmann constant and ${\displaystyle T}$ is the temperature. The proof of this equation is given in Ref. 1 and the only assumption is that of a weak coupling between the system and the reservoir.

References

1. C. Jarzynski "Nonequilibrium Equality for Free Energy Differences", Physical Review Letters 78 2690-2693 (1997)
2. E. G. D. Cohen; D. Mauzerall "The Jarzynski equality and the Boltzmann factor", Molecular Physics 103 pp. 2923 - 2926 (2005)