Quantum adiabatic protocols using emergent local Hamiltonians

Ranjan Modak; Lev Vidmar; Marcos Rigol

doi:10.1103/PhysRevE.96.042155

Quantum adiabatic protocols using emergent local Hamiltonians

Ranjan Modak, Lev Vidmar, Marcos Rigol

Physics

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We present two applications of emergent local Hamiltonians to speed up quantum adiabatic protocols for isolated noninteracting and weakly interacting fermionic systems in one-dimensional lattices. We demonstrate how to extract maximal work from initial band-insulating states, and how to adiabatically transfer systems from linear and harmonic traps into box traps. Our protocols consist of two stages. The first one involves a free expansion followed by a quench to an emergent local Hamiltonian. In the second stage, the emergent local Hamiltonian is "turned off" quasistatically. For the adiabatic transfer from a harmonic trap, we consider both zero- and nonzero-temperature initial states.

Original language	English (US)
Article number	042155
Journal	Physical Review E
Volume	96
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevE.96.042155
State	Published - Oct 26 2017

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
Statistics and Probability
Condensed Matter Physics

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10.1103/PhysRevE.96.042155

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AB - We present two applications of emergent local Hamiltonians to speed up quantum adiabatic protocols for isolated noninteracting and weakly interacting fermionic systems in one-dimensional lattices. We demonstrate how to extract maximal work from initial band-insulating states, and how to adiabatically transfer systems from linear and harmonic traps into box traps. Our protocols consist of two stages. The first one involves a free expansion followed by a quench to an emergent local Hamiltonian. In the second stage, the emergent local Hamiltonian is "turned off" quasistatically. For the adiabatic transfer from a harmonic trap, we consider both zero- and nonzero-temperature initial states.

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Quantum adiabatic protocols using emergent local Hamiltonians

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