Single-molecule thermodynamics: the heat distribution function of a charged particle in a static magnetic field


Autoria(s): Chatterjee, Debarati; Cherayil, Binny J
Data(s)

01/03/2011

Resumo

Interest in the applicability of fluctuation theorems to the thermodynamics of single molecules in external potentials has recently led to calculations of the work and total entropy distributions of Brownian oscillators in static and time-dependent electromagnetic fields. These calculations, which are based on solutions to a Smoluchowski equation, are not easily extended to a consideration of the other thermodynamic quantity of interest in such systems-the heat exchanges of the particle alone-because of the nonlinear dependence of the heat on a particle's stochastic trajectory. In this paper, we show that a path integral approach provides an exact expression for the distribution of the heat fluctuations of a charged Brownian oscillator in a static magnetic field. This approach is an extension of a similar path integral approach applied earlier by our group to the calculation of the heat distribution function of a trapped Brownian particle, which was found, in the limit of long times, to be consistent with experimental data on the thermal interactions of single micron-sized colloids in a viscous solvent.

Formato

application/pdf

Identificador

http://eprints.iisc.ernet.in/37150/1/Single.pdf

Chatterjee, Debarati and Cherayil, Binny J (2011) Single-molecule thermodynamics: the heat distribution function of a charged particle in a static magnetic field. In: Journal of Statistical Mechanics: Theory and Experiment .

Publicador

IOP Publishing ltd

Relação

http://iopscience.iop.org/1742-5468/2011/03/P03010/

http://eprints.iisc.ernet.in/37150/

Palavras-Chave #Inorganic & Physical Chemistry
Tipo

Journal Article

PeerReviewed