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<rdf:Description rdf:about="https://omeka.ihes.fr/document/P_70_X035.pdf">
    <dcterms:title><![CDATA[Analiticity of Green&#039;s functions of dilute quantum gases]]></dcterms:title>
    <dcterms:subject><![CDATA[FONCTIONS DE GREEN]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[THEORIE QUANTIQUE DES CHAMPS]]></dcterms:subject>
    <dcterms:creator><![CDATA[RUELLE]]></dcterms:creator>
    <dcterms:source><![CDATA[P/70/X035]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1970]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[5 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_70_X035.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1970]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[RUELLE]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_66_X005.pdf">
    <dcterms:title><![CDATA[Condensation of lattice gases]]></dcterms:title>
    <dcterms:subject><![CDATA[RESEAUX]]></dcterms:subject>
    <dcterms:subject><![CDATA[PHYSIQUE STATISTIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[SYSTEMES COMPLEXES]]></dcterms:subject>
    <dcterms:subject><![CDATA[CONDENSATION]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:creator><![CDATA[RUELLE]]></dcterms:creator>
    <dcterms:creator><![CDATA[GINIBRE]]></dcterms:creator>
    <dcterms:creator><![CDATA[GROSSMANN]]></dcterms:creator>
    <dcterms:source><![CDATA[P/66/X005]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1966]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[8 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_66_X005.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1966]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[RUELLE]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[GINIBRE]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[GROSSMANN]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_80_10.pdf">
    <dcterms:title><![CDATA[On the statistical mechanics of classical Coulomb - and dipole gases]]></dcterms:title>
    <dcterms:subject><![CDATA[MECANIQUE STATISTIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[PHYSIQUE NUCLEAIRE]]></dcterms:subject>
    <dcterms:creator><![CDATA[FROHLICH]]></dcterms:creator>
    <dcterms:creator><![CDATA[SPENCER]]></dcterms:creator>
    <dcterms:source><![CDATA[P/80/10]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1980]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[65 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_80_10.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1980]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[FROHLICH]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[SPENCER]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_80_36.pdf">
    <dcterms:title><![CDATA[Phase diagrams and critical properties of (classical) Coulomb systems]]></dcterms:title>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[MATIERE]]></dcterms:subject>
    <dcterms:subject><![CDATA[MODELES MOLECULAIRES]]></dcterms:subject>
    <dcterms:subject><![CDATA[DIAGRAMMES DE PHASES]]></dcterms:subject>
    <dcterms:subject><![CDATA[ELECTRODYNAMIQUE QUANTIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[STABILITE]]></dcterms:subject>
    <dcterms:creator><![CDATA[FROHLICH]]></dcterms:creator>
    <dcterms:creator><![CDATA[SPENCER]]></dcterms:creator>
    <dcterms:source><![CDATA[P/80/36]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1980]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[23 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_80_36.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1980]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[FROHLICH]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[SPENCER]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_67_X016.pdf">
    <dcterms:title><![CDATA[Statistical mechanics of a one-dimensional lattice gas]]></dcterms:title>
    <dcterms:subject><![CDATA[MECANIQUE STATISTIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[RESEAUX]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:description><![CDATA[Abstract : We study the statistical mechanics of an infinite one-dimensional classical lattice gas. Extending a result of Van Hove we show that, for a large class of interactions, such a system has no phase transition. The equilibrium state of the system is represented by a measure which is invariant under the effect of lattice translations. The dynamical system defined by this invariant measure is shown to be a K-system. ]]></dcterms:description>
    <dcterms:creator><![CDATA[RUELLE]]></dcterms:creator>
    <dcterms:source><![CDATA[P/67/X016]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1967]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[10 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_67_X016.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1967]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[RUELLE]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_82_05.pdf">
    <dcterms:title><![CDATA[Statistical mechanics of vortices in an inviscid two-dimensional fluid]]></dcterms:title>
    <dcterms:subject><![CDATA[MECANIQUE STATISTIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[THERMODYNAMIQUE]]></dcterms:subject>
    <dcterms:subject><![CDATA[VORTEX]]></dcterms:subject>
    <dcterms:subject><![CDATA[MECANIQUE DES FLUIDES]]></dcterms:subject>
    <dcterms:creator><![CDATA[FROHLICH]]></dcterms:creator>
    <dcterms:creator><![CDATA[RUELLE]]></dcterms:creator>
    <dcterms:source><![CDATA[P/82/05]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1982]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[34 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_82_05.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1982]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[FROHLICH]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[RUELLE]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_81_25.pdf">
    <dcterms:title><![CDATA[The Kosterlitz-Thouless transition in two-dimensional Abelian spin systems and the Coulomb Gas]]></dcterms:title>
    <dcterms:subject><![CDATA[SPIN]]></dcterms:subject>
    <dcterms:subject><![CDATA[PHYSIQUE NUCLEAIRE]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[DENSITE]]></dcterms:subject>
    <dcterms:subject><![CDATA[TRANSFORMATIONS]]></dcterms:subject>
    <dcterms:subject><![CDATA[ELECTROSTATIQUE]]></dcterms:subject>
    <dcterms:creator><![CDATA[FROHLICH]]></dcterms:creator>
    <dcterms:creator><![CDATA[SPENCER]]></dcterms:creator>
    <dcterms:source><![CDATA[P/81/25]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1981]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[77 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_81_25.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1981]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[FROHLICH]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[SPENCER]]></dcterms:rightsHolder>
</rdf:Description><rdf:Description rdf:about="https://omeka.ihes.fr/document/P_81_44.pdf">
    <dcterms:title><![CDATA[The Random walk representation of classical spin systems and correlation inequalities]]></dcterms:title>
    <dcterms:subject><![CDATA[SPIN]]></dcterms:subject>
    <dcterms:subject><![CDATA[FERROMAGNETISME]]></dcterms:subject>
    <dcterms:subject><![CDATA[GAZ]]></dcterms:subject>
    <dcterms:subject><![CDATA[THEORIE QUANTIQUE RELATIVISTE DES CHAMPS]]></dcterms:subject>
    <dcterms:subject><![CDATA[INEGALITES]]></dcterms:subject>
    <dcterms:subject><![CDATA[CORRELATION]]></dcterms:subject>
    <dcterms:creator><![CDATA[FROHLICH]]></dcterms:creator>
    <dcterms:creator><![CDATA[BRYDGES]]></dcterms:creator>
    <dcterms:creator><![CDATA[SPENCER]]></dcterms:creator>
    <dcterms:source><![CDATA[P/81/44]]></dcterms:source>
    <dcterms:publisher><![CDATA[IHES]]></dcterms:publisher>
    <dcterms:date><![CDATA[1981]]></dcterms:date>
    <dcterms:format><![CDATA[A4]]></dcterms:format>
    <dcterms:format><![CDATA[30 f.]]></dcterms:format>
    <dcterms:language><![CDATA[EN]]></dcterms:language>
    <dcterms:type><![CDATA[TEXTE]]></dcterms:type>
    <dcterms:type><![CDATA[PREPUBLICATION]]></dcterms:type>
    <dcterms:identifier><![CDATA[P_81_44.pdf]]></dcterms:identifier>
    <dcterms:coverage><![CDATA[1981]]></dcterms:coverage>
    <dcterms:provenance><![CDATA[IHES]]></dcterms:provenance>
    <dcterms:rightsHolder><![CDATA[IHES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[FROHLICH]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[BRYDGES]]></dcterms:rightsHolder>
    <dcterms:rightsHolder><![CDATA[SPENCER]]></dcterms:rightsHolder>
</rdf:Description></rdf:RDF>