Irreversibility of classical fluctuations studied in analogue electrical circuits.

Luchinsky, D. G. and McClintock, Peter V. E. (1997) Irreversibility of classical fluctuations studied in analogue electrical circuits. Nature, 389 (6650). pp. 463-466. ISSN 0028-0836

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Abstract

Fluctuations around some average or equilibrium state arise universally in physical systems. Large fluctuations —fluctuations that are much larger than average — occur only rarely but are responsible for many physical processes, such as nucleation in phase transitions, chemical reactions, mutations in DNA sequences, protein transport in cells and failure of electronic devices. They lie at the heart of many discussions of how the irreversible thermodynamic behaviour of bulk matter relates to the reversible (classical or quantum-mechanical) laws describing the constituent atoms and molecules. Large fluctuations can be described theoretically using hamiltonian and equivalent pathintegral formulations, but these approaches remain largely untested experimentally, mainly because such fluctuations are rare and also because only recently was an appropriate statistical distribution function formulated. It was shown recently, however, that experiments on fluctuations using analogue electronic circuits allow the phase-space trajectories of fluctuations in a dynamical system to be observed directly.Here we show that this approach can be used to identify a fundamental distinction between two types of random motion: fluctuational motion, which takes the system away from a stable state, and relaxational motion back towards this state. We suggest that macroscopic irreversibility is related to temporal asymmetry of these two types of motion, which in turn implies a lack of detailed balance and corresponds to non-differentiability of the generalized nonequilibrium potential in which the motion takes place.

Item Type:
Journal Article
Journal or Publication Title:
Nature
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1000
Subjects:
?? generalqc physics ??
ID Code:
32045
Deposited On:
09 Mar 2010 08:52
Refereed?:
Yes
Published?:
Published
Last Modified:
30 Sep 2024 23:57