Klemen Kovač (Avtor), Alberto Nocera (Avtor), Andrea Damascelli (Avtor), Janez Bonča (Avtor), Mona Berciu (Avtor)

Povzetek

We use density matrix renormalization group (DMRG) and variational exact diagonalization (VED) to calculate the single-electron removal spectral weight for the Hubbard-Holstein model at low electron densities. Tuning the strength of the electron-phonon coupling and of the Hubbard repulsion allows us to contrast the results for a liquid of polarons versus a liquid of bipolarons. The former shows spectral weight up to the Fermi energy, as expected for a metal. The latter has a gap in its spectral weight, set by the bipolaron binding energy, although this is also a (strongly correlated) metal. This difference suggests that angle-resolved photoemission spectroscopy could be used to identify liquids of pre-formed pairs. Furthermore, we show that the one-dimensional liquid of incoherent bipolarons is well approximated by a“Bose sea” of bosons that are hard-core in momentum space, occupying the momenta inside the Fermi sea but otherwise noninteracting. This new proposal for a strongly correlated many-body wave function opens the way for studying various other properties of incoherent (nonsuperconducting) liquids of preformed pairs in any dimension.

Ključne besede

fizika kondenzirane snovi;močno korelirani elektroni;condensed matter physics;strongly correlated electrons;

Podatki

Jezik: Angleški jezik
Leto izida:
Tipologija: 1.01 - Izvirni znanstveni članek
Organizacija: UL FMF - Fakulteta za matematiko in fiziko
UDK: 538.9
COBISS: 228038147 Povezava se bo odprla v novem oknu
ISSN: 0031-9007
Št. ogledov: 25
Št. prenosov: 4
Ocena: 0 (0 glasov)
Metapodatki: JSON JSON-RDF JSON-LD TURTLE N-TRIPLES XML RDFA MICRODATA DC-XML DC-RDF RDF

Ostali podatki

Sekundarni jezik: Slovenski jezik
Sekundarne ključne besede: fizika kondenzirane snovi;močno korelirani elektroni;
Vrsta dela (COBISS): Članek v reviji
Strani: str. 096502-1-096502-8
Letnik: ǂVol. ǂ134
Zvezek: ǂiss. ǂ9
Čas izdaje: 2025
DOI: 10.1103/PhysRevLett.134.096502
ID: 26017354