What question did this study set out to answer?

To microscopically derive Landauer's principle of information erasure without direct reference to the second law of thermodynamics.

May 17, 2000

Information erasure

Key Points

To microscopically derive Landauer's principle of information erasure without direct reference to the second law of thermodynamics.
Derived principles for a classical system with continuous space and time.
Examined cases with discrete space and time.
Analyzed a quantum system while considering contact with a thermal reservoir.
Establishment of Landauer's principle for all systems examined in the derived cases.
Quantitative understanding of energy dissipation during information erasure in classical and quantum contexts.

Abstract

Landauer's principle states that in erasing one bit of information, on average, at least k₁Tln (2) energy is dissipated into the environment (where k₁ is Boltzmann's constant and T is the temperature of the environment at which one erases). Here, Landauer's principle is microscopically derived without direct reference to the second law of thermodynamics. This is done for a classical system with continuous space and time, with discrete space and time, and for a quantum system. The assumption made in all three cases is that during erasure the bit is in contact with a thermal reservoir.

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Authors

Barbara Piechocinska

Los Alamos National Laboratory

Journals

Physical Review A

Actions

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Los Alamos National Laboratory

References and Citations

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Building similarity graph...

Analyzing shared references across papers

Information erasure

Key Points

Abstract

Citation Network

Connected Papers

Discussion

Authors

Journals

Actions

Institutions

References and Citations

Citation Network

Connected Papers

Discussion

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