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Many-body localization in Fock space: A local perspective

Abstract:
A canonical model for many-body localization (MBL) is studied, of interacting spinless fermions on a lattice with uncorrelated quenched site disorder. The model maps onto a tight-binding model on a ‘Fock-space (FS) lattice’ of many-body states, with an extensive local connectivity. We seek to understand some aspects of MBL from this perspective, via local propagators for the FS lattice and their self-energies (SE's), focusing on the SE probability distributions, over disorder and FS sites. A probabilistic mean-field theory (MFT) is first developed, centered on self-consistent determination of the geometric mean of the distribution. Despite its simplicity this captures some key features of the problem, including recovery of an MBL transition, and predictions for the forms of the SE distributions. The problem is then studied numerically in 1d by exact diagonalization, free from MFT assumptions. The geometric mean indeed appears to act as a suitable order parameter for the transition. Throughout the MBL phase the appropriate SE distribution is confirmed to have a universal form, with long-tailed Lévy behavior as predicted by MFT. In the delocalized phase for weak disorder, SE distributions are clearly log-normal, while on approaching the transition they acquire an intermediate Lévy-tail regime, indicative of the incipient MBL phase.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1103/PhysRevB.99.045131

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Institution:
University of Oxford
Division:
MPLS
Department:
Chemistry
Sub department:
Physical & Theoretical Chem
Oxford college:
University College
Role:
Author
More by this author
Institution:
University of Oxford
Division:
MPLS Division
Department:
Chemistry
Sub department:
Physical & Theoretical Chem
Role:
Author


Publisher:
American Physical Society
Journal:
Physical Review B More from this journal
Volume:
99
Issue:
4
Article number:
045131
Publication date:
2019-01-17
Acceptance date:
2019-01-03
DOI:
EISSN:
2469-9969
ISSN:
2469-9950


Keywords:
Pubs id:
pubs:966996
UUID:
uuid:48423aee-2671-423c-9c52-b33eedc512d3
Local pid:
pubs:966996
Source identifiers:
966996
Deposit date:
2019-03-22
ARK identifier:

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