FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1981809301> ?p ?o ?g. }

• W1981809301 endingPage "464" @default.
• W1981809301 startingPage "459" @default.
• W1981809301 abstract "The behavior of the specific heat $c_p$, effective mass $M^*$, and the thermal expansion coefficient $alpha$ of a Fermi system located near the fermion condensation quantum phase transition (FCQPT) is considered. We observe the first type behavior if the system is close to FCQPT: the specific heat $c_ppropto sqrt{T}$, $M^*propto1/sqrt{T}$, while the thermal expansion coefficient $alphapropto sqrt{T}$. Thus, the Gruneisen ratio ${rm Gamma}(T)=alpha/c_p$ does not diverges. At the transition region, where the system passes over from the non-Fermi liquid to the Landau Fermi liquid, the ratio diverges as ${rm Gamma}(T)propto 1/sqrt{T}$. When the system becomes the Landau Fermi liquid, ${rm Gamma}(T,r)propto 1/r$, with $r$ being a distance from the quantum critical point. Provided the system has undergone FCQPT, the second type takes place: the specific heat behaves as $c_ppropto sqrt{T}$, $M^*propto 1/T$, and $alpha=a+bT$ with $a,b$ being constants. Again, the Gruneisen ratio diverges as ${rm Gamma}(T)propto 1/sqrt{T}$." @default.
• W1981809301 created "2016-06-24" @default.
• W1981809301 creator A5003744988 @default.
• W1981809301 creator A5037311716 @default.
• W1981809301 creator A5077109577 @default.
• W1981809301 date "2004-01-01" @default.
• W1981809301 modified "2023-09-26" @default.
• W1981809301 title "Two types of the effective mass divergence and the Grüneisen ratio in heavy-fermion metals" @default.
• W1981809301 cites W1528903532 @default.
• W1981809301 cites W1640747748 @default.
• W1981809301 cites W1973395221 @default.
• W1981809301 cites W1981552520 @default.
• W1981809301 cites W1989389757 @default.
• W1981809301 cites W1992897699 @default.
• W1981809301 cites W2002361120 @default.
• W1981809301 cites W2006500356 @default.
• W1981809301 cites W2047491089 @default.
• W1981809301 cites W2048234147 @default.
• W1981809301 cites W2065991468 @default.
• W1981809301 cites W2089970076 @default.
• W1981809301 cites W2142380234 @default.
• W1981809301 cites W2154846872 @default.
• W1981809301 cites W3100772033 @default.
• W1981809301 cites W3101100719 @default.
• W1981809301 cites W3102166162 @default.
• W1981809301 cites W3103097849 @default.
• W1981809301 cites W3104341710 @default.
• W1981809301 cites W3105705647 @default.
• W1981809301 cites W3106341100 @default.
• W1981809301 doi "https://doi.org/10.1016/j.physleta.2003.11.040" @default.
• W1981809301 hasPublicationYear "2004" @default.
• W1981809301 type Work @default.
• W1981809301 sameAs 1981809301 @default.
• W1981809301 citedByCount "17" @default.
• W1981809301 countsByYear W19818093012013 @default.
• W1981809301 countsByYear W19818093012014 @default.
• W1981809301 countsByYear W19818093012020 @default.
• W1981809301 crossrefType "journal-article" @default.
• W1981809301 hasAuthorship W1981809301A5003744988 @default.
• W1981809301 hasAuthorship W1981809301A5037311716 @default.
• W1981809301 hasAuthorship W1981809301A5077109577 @default.
• W1981809301 hasBestOaLocation W19818093012 @default.
• W1981809301 hasConcept C109214941 @default.
• W1981809301 hasConcept C121332964 @default.
• W1981809301 hasConcept C146366752 @default.
• W1981809301 hasConcept C149288129 @default.
• W1981809301 hasConcept C179764930 @default.
• W1981809301 hasConcept C18903297 @default.
• W1981809301 hasConcept C26873012 @default.
• W1981809301 hasConcept C2777299769 @default.
• W1981809301 hasConcept C2986087423 @default.
• W1981809301 hasConcept C37914503 @default.
• W1981809301 hasConcept C51675196 @default.
• W1981809301 hasConcept C52233224 @default.
• W1981809301 hasConcept C54101563 @default.
• W1981809301 hasConcept C62520636 @default.
• W1981809301 hasConcept C72190298 @default.
• W1981809301 hasConcept C86803240 @default.
• W1981809301 hasConceptScore W1981809301C109214941 @default.
• W1981809301 hasConceptScore W1981809301C121332964 @default.
• W1981809301 hasConceptScore W1981809301C146366752 @default.
• W1981809301 hasConceptScore W1981809301C149288129 @default.
• W1981809301 hasConceptScore W1981809301C179764930 @default.
• W1981809301 hasConceptScore W1981809301C18903297 @default.
• W1981809301 hasConceptScore W1981809301C26873012 @default.
• W1981809301 hasConceptScore W1981809301C2777299769 @default.
• W1981809301 hasConceptScore W1981809301C2986087423 @default.
• W1981809301 hasConceptScore W1981809301C37914503 @default.
• W1981809301 hasConceptScore W1981809301C51675196 @default.
• W1981809301 hasConceptScore W1981809301C52233224 @default.
• W1981809301 hasConceptScore W1981809301C54101563 @default.
• W1981809301 hasConceptScore W1981809301C62520636 @default.
• W1981809301 hasConceptScore W1981809301C72190298 @default.
• W1981809301 hasConceptScore W1981809301C86803240 @default.
• W1981809301 hasIssue "5-6" @default.
• W1981809301 hasLocation W19818093011 @default.
• W1981809301 hasLocation W19818093012 @default.
• W1981809301 hasOpenAccess W1981809301 @default.
• W1981809301 hasPrimaryLocation W19818093011 @default.
• W1981809301 hasRelatedWork W1045414748 @default.
• W1981809301 hasRelatedWork W1551356189 @default.
• W1981809301 hasRelatedWork W1571582993 @default.
• W1981809301 hasRelatedWork W1626678528 @default.
• W1981809301 hasRelatedWork W1644804585 @default.
• W1981809301 hasRelatedWork W1990616168 @default.
• W1981809301 hasRelatedWork W2010034989 @default.
• W1981809301 hasRelatedWork W2154942224 @default.
• W1981809301 hasRelatedWork W2165716323 @default.
• W1981809301 hasRelatedWork W2901243661 @default.
• W1981809301 hasVolume "320" @default.
• W1981809301 isParatext "false" @default.
• W1981809301 isRetracted "false" @default.
• W1981809301 magId "1981809301" @default.
• W1981809301 workType "article" @default.