论文信息 - Dynamical randomness, information, and Landauer's principle

Dynamical randomness, information, and Landauer's principle

New concepts from nonequilibrium thermodynamics are used to show that Landauer's principle can be understood in terms of time asymmetry in the dynamical randomness generated by the physical process of the erasure of digital information. In this way, Landauer's principle is generalized, showing that the dissipation associated with the erasure of a sequence of bits produces entropy at the rate kBI per erased bit, where I is Shannon's information per bit.

D. Andrieux | P. Gaspard

[1] D. Andrieux,et al. Entropy production and time asymmetry in nonequilibrium fluctuations. , 2007, Physical review letters.

[2] J. Parrondo,et al. Dissipation: the phase-space perspective. , 2007, Physical review letters.

[3] Thomas M. Cover,et al. Elements of Information Theory , 2005 .

[4] John von Neumann,et al. Theory Of Self Reproducing Automata , 1967 .

[5] L. Brillouin,et al. Science and information theory , 1956 .