SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3044995087> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W3044995087 abstract "We present a consistent fusion of functional renormalization group and mean-field theory which explicitly introduces a bosonic field via a Hubbard-Stratonovich transformation at the critical scale, at which the order sets in. We show that a minimal truncation of the flow equations, that neglects order-parameter fluctuations, is integrable and fulfills fundamental constraints as the Goldstone theorem and the Ward identity connected with the broken global symmetry. To introduce the bosonic field, we present a technique to factorize the most singular part of the vertex, even when the full dependence on all its arguments is retained. We test our method on the two-dimensional attractive Hubbard model at half-filling and calculate the superfluid gap as well as the Yukawa couplings and residual two-fermion interactions in the ordered phase as functions of fermionic Matsubara frequencies. Furthermore, we analyze the gap and the condensate fraction for weak and moderate couplings and compare our results with previous functional renormalization group studies, and with quantum Monte Carlo data. Our formalism constitutes a convenient starting point for the inclusion of order-parameter fluctuations by keeping a full, nonsimplified, dependence on fermionic momenta and/or frequencies." @default.
W3044995087 created "2020-07-29" @default.
W3044995087 creator A5076690609 @default.
W3044995087 date "2020-12-29" @default.
W3044995087 modified "2023-10-15" @default.
W3044995087 title "Accessing the ordered phase of correlated Fermi systems: Vertex bosonization and mean-field theory within the functional renormalization group" @default.
W3044995087 cites W1519902706 @default.
W3044995087 cites W1531472254 @default.
W3044995087 cites W1586924080 @default.
W3044995087 cites W1697015773 @default.
W3044995087 cites W1874324710 @default.
W3044995087 cites W1965151562 @default.
W3044995087 cites W1977540999 @default.
W3044995087 cites W1983614495 @default.
W3044995087 cites W1988150410 @default.
W3044995087 cites W1992064626 @default.
W3044995087 cites W1995809559 @default.
W3044995087 cites W1999841601 @default.
W3044995087 cites W2003438496 @default.
W3044995087 cites W2003478149 @default.
W3044995087 cites W2004803796 @default.
W3044995087 cites W2006393066 @default.
W3044995087 cites W2006805535 @default.
W3044995087 cites W2007969409 @default.
W3044995087 cites W2008317504 @default.
W3044995087 cites W2013220282 @default.
W3044995087 cites W2014716190 @default.
W3044995087 cites W2018987071 @default.
W3044995087 cites W2026188647 @default.
W3044995087 cites W2029280781 @default.
W3044995087 cites W2029350975 @default.
W3044995087 cites W2037362143 @default.
W3044995087 cites W2038076545 @default.
W3044995087 cites W2040012085 @default.
W3044995087 cites W2043452339 @default.
W3044995087 cites W2047556690 @default.
W3044995087 cites W2052124071 @default.
W3044995087 cites W2060889014 @default.
W3044995087 cites W2062467109 @default.
W3044995087 cites W2064230874 @default.
W3044995087 cites W2066165075 @default.
W3044995087 cites W2066468313 @default.
W3044995087 cites W2071547014 @default.
W3044995087 cites W2076878202 @default.
W3044995087 cites W2079656070 @default.
W3044995087 cites W2082651267 @default.
W3044995087 cites W2084710486 @default.
W3044995087 cites W2086860422 @default.
W3044995087 cites W2088773423 @default.
W3044995087 cites W2090221203 @default.
W3044995087 cites W2095265584 @default.
W3044995087 cites W2117862525 @default.
W3044995087 cites W2119611826 @default.
W3044995087 cites W2121719817 @default.
W3044995087 cites W2138038686 @default.
W3044995087 cites W2147654265 @default.
W3044995087 cites W2202494139 @default.
W3044995087 cites W2210555980 @default.
W3044995087 cites W2262444430 @default.
W3044995087 cites W2341605597 @default.
W3044995087 cites W2539222573 @default.
W3044995087 cites W2607694226 @default.
W3044995087 cites W2611378291 @default.
W3044995087 cites W2734591602 @default.
W3044995087 cites W2746815407 @default.
W3044995087 cites W2788334660 @default.
W3044995087 cites W2799800593 @default.
W3044995087 cites W2808713480 @default.
W3044995087 cites W2810007328 @default.
W3044995087 cites W2895543728 @default.
W3044995087 cites W2912512654 @default.
W3044995087 cites W2955434281 @default.
W3044995087 cites W2966404497 @default.
W3044995087 cites W2972203066 @default.
W3044995087 cites W2980921444 @default.
W3044995087 cites W3005344418 @default.
W3044995087 cites W3099176913 @default.
W3044995087 cites W3100970303 @default.
W3044995087 cites W3105283292 @default.
W3044995087 cites W3106282264 @default.
W3044995087 doi "https://doi.org/10.1103/physrevb.102.235160" @default.
W3044995087 hasPublicationYear "2020" @default.
W3044995087 type Work @default.
W3044995087 sameAs 3044995087 @default.
W3044995087 citedByCount "10" @default.
W3044995087 countsByYear W30449950872021 @default.
W3044995087 countsByYear W30449950872022 @default.
W3044995087 countsByYear W30449950872023 @default.
W3044995087 crossrefType "journal-article" @default.
W3044995087 hasAuthorship W3044995087A5076690609 @default.
W3044995087 hasBestOaLocation W30449950871 @default.
W3044995087 hasConcept C115047598 @default.
W3044995087 hasConcept C121332964 @default.
W3044995087 hasConcept C151195881 @default.
W3044995087 hasConcept C166124518 @default.
W3044995087 hasConcept C202213908 @default.
W3044995087 hasConcept C207740291 @default.
W3044995087 hasConcept C2777922955 @default.
W3044995087 hasConcept C37914503 @default.
W3044995087 hasConcept C52233224 @default.