SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3034976827> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W3034976827 abstract "In this paper we study the phase diagram of the five-state Potts antiferromagnet on the bisected-hexagonal lattice. This question is important since Delfino and Tartaglia recently showed that a second-order transition in a five-state Potts antiferromagnet is allowed, and the bisected-hexagonal lattice had emerged as a candidate for such a transition on numerical grounds. By using high-precision Monte Carlo simulations and two complementary analysis methods, we conclude that there is a finite-temperature first-order transition point. This one separates a paramagnetic high-temperature phase, and a low-temperature phase where five phases coexist. This phase transition is very weak in the sense that its latent heat (per edge) is two orders of magnitude smaller than that of other well-known weak first-order phase transitions." @default.
W3034976827 created "2020-06-19" @default.
W3034976827 creator A5066339800 @default.
W3034976827 date "2020-09-15" @default.
W3034976827 modified "2023-09-26" @default.
W3034976827 title "Phase diagram for the bisected-hexagonal-lattice five-state Potts antiferromagnet" @default.
W3034976827 cites W1493033502 @default.
W3034976827 cites W1566906125 @default.
W3034976827 cites W1590167836 @default.
W3034976827 cites W1621145279 @default.
W3034976827 cites W1964265268 @default.
W3034976827 cites W1965511886 @default.
W3034976827 cites W1967628931 @default.
W3034976827 cites W1967661433 @default.
W3034976827 cites W1968430479 @default.
W3034976827 cites W1971911032 @default.
W3034976827 cites W1973800098 @default.
W3034976827 cites W1974746862 @default.
W3034976827 cites W1975523774 @default.
W3034976827 cites W1977233315 @default.
W3034976827 cites W1977899459 @default.
W3034976827 cites W1977941335 @default.
W3034976827 cites W1982755004 @default.
W3034976827 cites W1987818319 @default.
W3034976827 cites W1988007820 @default.
W3034976827 cites W1998236996 @default.
W3034976827 cites W2000694656 @default.
W3034976827 cites W2002662860 @default.
W3034976827 cites W2002792285 @default.
W3034976827 cites W2003809449 @default.
W3034976827 cites W2010332231 @default.
W3034976827 cites W2011647233 @default.
W3034976827 cites W2011813007 @default.
W3034976827 cites W2012032973 @default.
W3034976827 cites W2015810775 @default.
W3034976827 cites W2024511231 @default.
W3034976827 cites W2024883565 @default.
W3034976827 cites W2025692682 @default.
W3034976827 cites W2026815563 @default.
W3034976827 cites W2027384625 @default.
W3034976827 cites W2033328039 @default.
W3034976827 cites W2035170744 @default.
W3034976827 cites W2036323498 @default.
W3034976827 cites W2036899537 @default.
W3034976827 cites W2037139490 @default.
W3034976827 cites W2037521551 @default.
W3034976827 cites W2042861785 @default.
W3034976827 cites W2046522264 @default.
W3034976827 cites W2048778583 @default.
W3034976827 cites W2050188822 @default.
W3034976827 cites W2051686481 @default.
W3034976827 cites W2052917192 @default.
W3034976827 cites W2052951867 @default.
W3034976827 cites W2067803135 @default.
W3034976827 cites W2069085695 @default.
W3034976827 cites W2069104511 @default.
W3034976827 cites W2074513249 @default.
W3034976827 cites W2079137364 @default.
W3034976827 cites W2095122910 @default.
W3034976827 cites W2111678564 @default.
W3034976827 cites W2116817039 @default.
W3034976827 cites W2119583642 @default.
W3034976827 cites W2126885955 @default.
W3034976827 cites W2131404542 @default.
W3034976827 cites W2146895524 @default.
W3034976827 cites W2159793005 @default.
W3034976827 cites W2162176169 @default.
W3034976827 cites W2229646522 @default.
W3034976827 cites W2253396605 @default.
W3034976827 cites W2599870363 @default.
W3034976827 cites W2616482252 @default.
W3034976827 cites W2732719120 @default.
W3034976827 cites W2776529175 @default.
W3034976827 cites W2798376445 @default.
W3034976827 cites W2912140262 @default.
W3034976827 cites W2951275000 @default.
W3034976827 cites W2962839588 @default.
W3034976827 cites W2962994552 @default.
W3034976827 cites W2963164457 @default.
W3034976827 cites W2963390106 @default.
W3034976827 cites W3098306991 @default.
W3034976827 cites W3099567669 @default.
W3034976827 cites W3099984523 @default.
W3034976827 cites W3101190734 @default.
W3034976827 cites W3102750668 @default.
W3034976827 cites W3103030615 @default.
W3034976827 cites W3103821093 @default.
W3034976827 cites W3104925330 @default.
W3034976827 cites W3105538139 @default.
W3034976827 cites W4206688401 @default.
W3034976827 cites W4232973467 @default.
W3034976827 cites W4300185974 @default.
W3034976827 cites W4300769021 @default.
W3034976827 doi "https://doi.org/10.1103/physreve.102.032124" @default.
W3034976827 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33076030" @default.
W3034976827 hasPublicationYear "2020" @default.
W3034976827 type Work @default.
W3034976827 sameAs 3034976827 @default.
W3034976827 citedByCount "6" @default.
W3034976827 countsByYear W30349768272021 @default.