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Landauer's principle
Known as:
Von Neumann-Landauer limit
, Landauer
, Landauer limit
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Landauer's principle is a physical principle pertaining to the lower theoretical limit of energy consumption of computation. It holds that "any…
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Related topics
Related topics
15 relations
Algorithmic cooling
Bremermann's limit
Brute-force attack
Computation
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Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2017
2017
Comparison of oxygen evolution parameters on different types of nickel hydroxide
V. Kotok
,
V. Kovalenko
,
V. Malyshev
2017
Corpus ID: 55415690
A simple method for determining the oxygen evolution parameters , that uses stepwise potentiostatic regime was proposed. The…
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2013
2013
Differential Landauer's principle
L. Granger
,
H. Kantz
2013
Corpus ID: 119107324
Landauer's principle states that the erasure of information must be a dissipative process. In this paper, we carefully analyze…
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Review
2008
Review
2008
Medical dosimetry using optically stimulated luminescence dots and microStar readers
C. Perks
,
C. Yahnke
,
M. Million
2008
Corpus ID: 7217500
Landauer has developed a portable dosimetry system based on its Optically Stimulated Luminescence (OSL) technology. It is called…
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2005
2005
A new backscattering model giving a description of the quasi-ballistic transport in nano-MOSFET
E. Fuchs
,
P. Dollfus
,
+5 authors
T. Skotnicki
IEEE Transactions on Electron Devices
2005
Corpus ID: 2922852
A backscattering model suitable for compact modeling of nanoscale MOSFET is developed within the Landauer flux-scattering theory…
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Highly Cited
2002
Highly Cited
2002
Intrinsic electron transport properties of carbon nanotube Y-junctions
V. Meunier
,
M. Nardelli
,
J. Bernholc
,
T. Zacharia
,
J. Charlier
2002
Corpus ID: 122621826
The electron transport properties of three-terminal carbon-nanotube junctions are investigated within the Landauer theory of…
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2001
2001
Traversal time for electron tunneling in water
Michael Galperin
,
A. Nitzan
,
U. Peskin
2001
Corpus ID: 96375118
The traversal time for tunneling is a measure of the time during which the transmitted particle can be affected by interactions…
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Highly Cited
2000
Highly Cited
2000
Tunneling Time for Electron Transfer Reactions
Abraham Nitzan and
,
J. Jortner
,
J. Wilkie
,
A. Burin
,
M. Ratner
2000
Corpus ID: 56267601
The tunneling time for nonadiabatic electron transfer reactions described within the superexchange model is estimated using a…
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1999
1999
Numerical Study of Transport in Carbon Nanotubes with Lattice Vacancy
M. Igami
,
T. Nakanishi
,
T. Ando
1999
Corpus ID: 55059156
The conductance is calculated for approximately 1.6×10 5 armchair carbon nanotubes (CN's) with a different lattice vacancy in a…
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Highly Cited
1992
Highly Cited
1992
Possible Applications of the Single Charge Tunneling
D. Averin
,
K. Likharev
1992
Corpus ID: 117798382
We have had a temptation to call this chapter traditionally, something like “Single-Electronic Devices”, but eventually decided…
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1988
1988
Landauer-type formulation of quantum-Hall transport: Critical currents and narrow channels.
Jain Jk
,
Kivelson Sa
1988
Corpus ID: 121314976
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