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| author | James P. Sethna <sethna@lassp.cornell.edu> | 2018-05-15 11:24:45 -0400 |
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| committer | James P. Sethna <sethna@lassp.cornell.edu> | 2018-05-15 11:24:45 -0400 |
| commit | 36e1822423a973dee2861933bf6ffd96ddb04b9d (patch) | |
| tree | 86459b9644ec71545384ab31188049d9a0d4e9d4 | |
| parent | a8f8a3fad2d07780c48db7e15036dec5ea8ab90d (diff) | |
| download | PRE_98_063306-36e1822423a973dee2861933bf6ffd96ddb04b9d.tar.gz PRE_98_063306-36e1822423a973dee2861933bf6ffd96ddb04b9d.tar.bz2 PRE_98_063306-36e1822423a973dee2861933bf6ffd96ddb04b9d.zip | |
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| -rw-r--r-- | prl-paragraph2.txt | 8 |
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diff --git a/prl-paragraph2.txt b/prl-paragraph2.txt new file mode 100644 index 0000000..09c6944 --- /dev/null +++ b/prl-paragraph2.txt @@ -0,0 +1,8 @@ +The Wolff cluster Monte Carlo algorithm accelerates lattice stat-mech +models near criticality. External fields, ignored by Wolff, are of +significant current importance, e.g. for information geometry, universal +scaling of correlation functions, and essential singularities in critical +properties just in our group. We evaluate a little-known extension to +Wolff (e.g., unknown to expert Jon Machta) to demonstrate that it +largely eliminates critical slowing down in a variety of models, and +generalize the extension to arbitrary fields. |