SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002571570> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2002571570 abstract "In a pilot study, we use the topological charge density defined by the eigenmodes of the overlap Dirac operator (with ultraviolet filtering by mode truncation) to search for lumps of topological charge in $SU(2)$ pure gauge theory. Augmenting this search with periodic and antiperiodic temporal boundary conditions for the overlap fermions, we demonstrate that the lumps can be classified either as calorons or as separate caloron constituents (dyons). Inside the topological charge clusters, the (smeared) Polyakov loop is found to show the typical profile characteristic for calorons and dyons. This investigation, motivated by recent caloron/dyon model studies, is performed at the deconfinement phase transition for $SU(2)$ gluodynamics on ${20}^{3}ifmmodetimeselsetexttimesfi{}6$ lattices described by the tadpole-improved Luscher-Weisz (LW) action. The transition point has been carefully located. As a necessary condition for the caloron/dyon detection capability, we check that the LW action, in contrast to the Wilson action, generates lattice ensembles, for which the overlap Dirac eigenvalue spectrum smoothly behaves under smearing and under the change of the boundary conditions." @default.
W2002571570 created "2016-06-24" @default.
W2002571570 creator A5009841991 @default.
W2002571570 creator A5026727499 @default.
W2002571570 creator A5029566206 @default.
W2002571570 creator A5050796261 @default.
W2002571570 creator A5061793756 @default.
W2002571570 creator A5081585244 @default.
W2002571570 date "2007-09-18" @default.
W2002571570 modified "2023-10-18" @default.
W2002571570 title "Calorons and dyons at the thermal phase transition analyzed by overlap fermions" @default.
W2002571570 cites W1528965257 @default.
W2002571570 cites W1589822594 @default.
W2002571570 cites W1967221817 @default.
W2002571570 cites W1968190664 @default.
W2002571570 cites W1969210747 @default.
W2002571570 cites W1985624253 @default.
W2002571570 cites W1989611293 @default.
W2002571570 cites W1993611423 @default.
W2002571570 cites W1994574483 @default.
W2002571570 cites W2006181073 @default.
W2002571570 cites W2008268543 @default.
W2002571570 cites W2016900252 @default.
W2002571570 cites W2018152438 @default.
W2002571570 cites W2019082557 @default.
W2002571570 cites W2022181049 @default.
W2002571570 cites W2031385281 @default.
W2002571570 cites W2031773554 @default.
W2002571570 cites W2034571440 @default.
W2002571570 cites W2040478914 @default.
W2002571570 cites W2044446109 @default.
W2002571570 cites W2045066260 @default.
W2002571570 cites W2053805368 @default.
W2002571570 cites W2055155185 @default.
W2002571570 cites W2058267112 @default.
W2002571570 cites W2060036385 @default.
W2002571570 cites W2064132174 @default.
W2002571570 cites W2066171114 @default.
W2002571570 cites W2067137320 @default.
W2002571570 cites W2071851183 @default.
W2002571570 cites W2071939979 @default.
W2002571570 cites W2073635265 @default.
W2002571570 cites W2075171809 @default.
W2002571570 cites W2076558625 @default.
W2002571570 cites W2076681681 @default.
W2002571570 cites W2083158948 @default.
W2002571570 cites W2084801638 @default.
W2002571570 cites W2087276725 @default.
W2002571570 cites W2088119981 @default.
W2002571570 cites W2088922235 @default.
W2002571570 cites W2090914539 @default.
W2002571570 cites W2090955293 @default.
W2002571570 cites W2091103577 @default.
W2002571570 cites W2092174702 @default.
W2002571570 cites W2092179047 @default.
W2002571570 cites W2093957219 @default.
W2002571570 cites W2101441027 @default.
W2002571570 cites W2102941245 @default.
W2002571570 cites W2108876311 @default.
W2002571570 cites W2135934849 @default.
W2002571570 cites W2135985420 @default.
W2002571570 cites W2139213325 @default.
W2002571570 cites W2144175980 @default.
W2002571570 cites W2146265290 @default.
W2002571570 cites W2175510654 @default.
W2002571570 cites W2257943101 @default.
W2002571570 cites W2963665944 @default.
W2002571570 cites W3099385277 @default.
W2002571570 cites W3099914075 @default.
W2002571570 cites W3100824273 @default.
W2002571570 cites W3100889430 @default.
W2002571570 cites W3101229569 @default.
W2002571570 cites W3101393900 @default.
W2002571570 cites W3102603230 @default.
W2002571570 cites W3103082136 @default.
W2002571570 cites W3103378957 @default.
W2002571570 cites W3103979865 @default.
W2002571570 cites W3104047582 @default.
W2002571570 cites W3104475044 @default.
W2002571570 cites W3123780358 @default.
W2002571570 cites W3124527336 @default.
W2002571570 cites W3124849801 @default.
W2002571570 cites W3125833814 @default.
W2002571570 cites W4241958526 @default.
W2002571570 doi "https://doi.org/10.1103/physrevd.76.054505" @default.
W2002571570 hasPublicationYear "2007" @default.
W2002571570 type Work @default.
W2002571570 sameAs 2002571570 @default.
W2002571570 citedByCount "33" @default.
W2002571570 countsByYear W20025715702012 @default.
W2002571570 countsByYear W20025715702013 @default.
W2002571570 countsByYear W20025715702014 @default.
W2002571570 countsByYear W20025715702015 @default.
W2002571570 countsByYear W20025715702016 @default.
W2002571570 countsByYear W20025715702017 @default.
W2002571570 countsByYear W20025715702018 @default.
W2002571570 crossrefType "journal-article" @default.
W2002571570 hasAuthorship W2002571570A5009841991 @default.
W2002571570 hasAuthorship W2002571570A5026727499 @default.
W2002571570 hasAuthorship W2002571570A5029566206 @default.