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Efficient, Multiple-Range Random Walk Algorithm to Calculate the Density of States
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Abstract
We present a new Monte Carlo algorithm that produces results of high accuracy with
reduced simulational effort. Independent random walks are performed (concurrently
or serially) in different, restricted ranges of energy, and the resultant density
of states is modified continuously to produce locally flat histograms. This method
permits us to directly access the free energy and entropy, is independent of temperature,
and is efficient for the study of both 1st order and 2nd order phase transitions.
It should also be useful for the study of complex systems with a rough energy landscape.
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Most cited references17
- Record: found
- Abstract: not found
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Nonuniversal critical dynamics in Monte Carlo simulations
Robert H Swendsen, Jian-Sheng Wang (1987)
- Record: found
- Abstract: not found
- Article: not found
Collective Monte Carlo updating for spin systems.
Ulli Wolff (1989)
- Record: found
- Abstract: not found
- Article: not found
Multicanonical algorithms for first order phase transitions
Bernd Berg, Thomas Neuhaus (1991)