Many-body flatband localization
ORAL
Abstract
We generate translationally invariant systems exhibiting many-body localization from all-bands-flat single-particle lattice \
Hamiltonians dressed with suitable short-range many-body interactions. This phenomenon, dubbed many-body flatband localization, is based on symmetries of both single-particle and interaction terms in the Hamiltonian, and it holds for any interaction strength. We propose a generator of corresponding Hamiltonians which covers both interacting bosons and fermions for arbitrary lattice dimensions, and we provide explicit examples of such models in one and two lattice dimensions. We also explicitly construct an extensive set of local integrals of motion for this set of models. Our results can be further generalized to long-range interactions as well as to systems lacking translational invariance.
Hamiltonians dressed with suitable short-range many-body interactions. This phenomenon, dubbed many-body flatband localization, is based on symmetries of both single-particle and interaction terms in the Hamiltonian, and it holds for any interaction strength. We propose a generator of corresponding Hamiltonians which covers both interacting bosons and fermions for arbitrary lattice dimensions, and we provide explicit examples of such models in one and two lattice dimensions. We also explicitly construct an extensive set of local integrals of motion for this set of models. Our results can be further generalized to long-range interactions as well as to systems lacking translational invariance.
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Presenters
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Alexei Andreanov
PCS, Institute for Basic Science, Daejeon
Authors
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Carlo Danieli
Condensed Matter, MPI PKS, Dresden
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Alexei Andreanov
PCS, Institute for Basic Science, Daejeon
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Sergej Flach
Center for Theoretical Physics of Complex Systems, Institute for Basic Science, Daejeon 34126, Korea, PCS, Institute for Basic Science, Daejeon