SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012599612> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2012599612 abstract "We postulate the existence of universal crossover functions connecting the universal parts of the entanglement entropy to the low-temperature thermal entropy in gapless quantum many-body systems. These scaling functions encode the intuition that the same low-energy degrees of freedom which control low-temperature thermal physics are also responsible for the long-range entanglement in the quantum ground state. We demonstrate the correctness of the proposed scaling form and determine the scaling function for certain classes of gapless systems whose low-energy physics is described by a conformal field theory. We also use our crossover formalism to argue that local systems which are ``natural'' can violate the boundary law at most logarithmically. In particular, we show that several non-Fermi-liquid phases of matter have entanglement entropy that is at most of order ${L}^{densuremath{-}1}mathrm{log}(L)$ for a region of linear size $L$ thereby confirming various earlier suggestions in the literature. We also briefly apply our crossover formalism to the study of fluctuations in conserved quantities and discuss some subtleties that occur in systems that spontaneously break a continuous symmetry." @default.
W2012599612 created "2016-06-24" @default.
W2012599612 creator A5033759873 @default.
W2012599612 creator A5087486799 @default.
W2012599612 date "2013-01-24" @default.
W2012599612 modified "2023-10-02" @default.
W2012599612 title "Universal crossovers between entanglement entropy and thermal entropy" @default.
W2012599612 cites W1490708565 @default.
W2012599612 cites W1531502562 @default.
W2012599612 cites W1713481178 @default.
W2012599612 cites W1816767040 @default.
W2012599612 cites W1865640816 @default.
W2012599612 cites W1887381766 @default.
W2012599612 cites W1892210848 @default.
W2012599612 cites W1922629554 @default.
W2012599612 cites W1964387354 @default.
W2012599612 cites W1980767577 @default.
W2012599612 cites W1990045935 @default.
W2012599612 cites W1997029559 @default.
W2012599612 cites W2008065219 @default.
W2012599612 cites W2014461107 @default.
W2012599612 cites W2019024022 @default.
W2012599612 cites W2022894999 @default.
W2012599612 cites W2033100549 @default.
W2012599612 cites W2037034135 @default.
W2012599612 cites W2046439097 @default.
W2012599612 cites W2063192576 @default.
W2012599612 cites W2069840277 @default.
W2012599612 cites W2078159973 @default.
W2012599612 cites W2082329723 @default.
W2012599612 cites W2082467324 @default.
W2012599612 cites W2082666420 @default.
W2012599612 cites W2086130961 @default.
W2012599612 cites W2093774709 @default.
W2012599612 cites W2096391265 @default.
W2012599612 cites W2098316819 @default.
W2012599612 cites W2105077826 @default.
W2012599612 cites W2105655719 @default.
W2012599612 cites W2110283120 @default.
W2012599612 cites W2120998799 @default.
W2012599612 cites W2130448398 @default.
W2012599612 cites W2141008558 @default.
W2012599612 cites W2142534591 @default.
W2012599612 cites W2142673221 @default.
W2012599612 cites W2169514570 @default.
W2012599612 cites W2171823766 @default.
W2012599612 cites W3099321628 @default.
W2012599612 cites W3103688923 @default.
W2012599612 cites W3122284647 @default.
W2012599612 doi "https://doi.org/10.1103/physrevb.87.045123" @default.
W2012599612 hasPublicationYear "2013" @default.
W2012599612 type Work @default.
W2012599612 sameAs 2012599612 @default.
W2012599612 citedByCount "54" @default.
W2012599612 countsByYear W20125996122013 @default.
W2012599612 countsByYear W20125996122014 @default.
W2012599612 countsByYear W20125996122015 @default.
W2012599612 countsByYear W20125996122016 @default.
W2012599612 countsByYear W20125996122017 @default.
W2012599612 countsByYear W20125996122018 @default.
W2012599612 countsByYear W20125996122019 @default.
W2012599612 countsByYear W20125996122020 @default.
W2012599612 countsByYear W20125996122021 @default.
W2012599612 countsByYear W20125996122022 @default.
W2012599612 countsByYear W20125996122023 @default.
W2012599612 crossrefType "journal-article" @default.
W2012599612 hasAuthorship W2012599612A5033759873 @default.
W2012599612 hasAuthorship W2012599612A5087486799 @default.
W2012599612 hasBestOaLocation W20125996122 @default.
W2012599612 hasConcept C106301342 @default.
W2012599612 hasConcept C121040770 @default.
W2012599612 hasConcept C121332964 @default.
W2012599612 hasConcept C121864883 @default.
W2012599612 hasConcept C122507166 @default.
W2012599612 hasConcept C134306372 @default.
W2012599612 hasConcept C154945302 @default.
W2012599612 hasConcept C2524010 @default.
W2012599612 hasConcept C33923547 @default.
W2012599612 hasConcept C41008148 @default.
W2012599612 hasConcept C42047476 @default.
W2012599612 hasConcept C54613284 @default.
W2012599612 hasConcept C62520636 @default.
W2012599612 hasConcept C84114770 @default.
W2012599612 hasConcept C98214594 @default.
W2012599612 hasConcept C99844830 @default.
W2012599612 hasConceptScore W2012599612C106301342 @default.
W2012599612 hasConceptScore W2012599612C121040770 @default.
W2012599612 hasConceptScore W2012599612C121332964 @default.
W2012599612 hasConceptScore W2012599612C121864883 @default.
W2012599612 hasConceptScore W2012599612C122507166 @default.
W2012599612 hasConceptScore W2012599612C134306372 @default.
W2012599612 hasConceptScore W2012599612C154945302 @default.
W2012599612 hasConceptScore W2012599612C2524010 @default.
W2012599612 hasConceptScore W2012599612C33923547 @default.
W2012599612 hasConceptScore W2012599612C41008148 @default.
W2012599612 hasConceptScore W2012599612C42047476 @default.
W2012599612 hasConceptScore W2012599612C54613284 @default.
W2012599612 hasConceptScore W2012599612C62520636 @default.
W2012599612 hasConceptScore W2012599612C84114770 @default.
W2012599612 hasConceptScore W2012599612C98214594 @default.