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Thermalization and Its Absence within Krylov Subspaces of a Constrained Hamiltonian
- Publication Year :
- 2021
- Publisher :
- WORLD SCIENTIFIC, 2021.
-
Abstract
- We study the quantum dynamics of a simple translation invariant, center-of-mass (CoM) preserving model of interacting fermions in one dimension (1D), which arises in multiple experimentally realizable contexts. We show that this model naturally displays the phenomenology associated with fractonic systems, wherein single charges can only move by emitting dipoles. This allows us to demonstrate the rich Krylov fractured structure of this model, whose Hilbert space shatters into exponentially many dynamically disconnected subspaces. Focusing on exponentially large Krylov subspaces, we show that these can be either be integrable or non-integrable, thereby establishing the notion of Krylov-restricted thermalization. We analytically find a tower of integrable Krylov subspaces of this Hamiltonian, all of which map onto spin-1/2 XX models of various system sizes. We also discuss the physics of the non-integrable subspaces, where we show evidence for weak Eigenstate Thermalization Hypothesis (ETH) restricted to each non-integrable Krylov subspace. Further, we show that constraints in some of the thermal Krylov subspaces cause the long-time expectation values of local operators to deviate from behavior typically expected from translation-invariant systems. Finally, we show using a Schrieffer-Wolff transformation that such models naturally appear as effective Hamiltonians in the large electric field limit of the interacting Wannier-Stark problem, and comment on connections of our work with the phenomenon of Bloch many-body localization.
- Subjects :
- Physics
Integrable system
010308 nuclear & particles physics
Quantum dynamics
Hilbert space
Krylov subspace
Invariant (physics)
01 natural sciences
Linear subspace
Theoretical physics
symbols.namesake
0103 physical sciences
symbols
010306 general physics
Hamiltonian (quantum mechanics)
Eigenstate thermalization hypothesis
Subjects
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.doi...........bcf55084f6fb5c7fa0dc30a23cba4188
- Full Text :
- https://doi.org/10.1142/9789811231711_0009