Quantum adiabatic protocols using emergent local Hamiltonians
Statistical Mechanics
2017-10-31 v2 Quantum Gases
Quantum Physics
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.
Keywords
Cite
@article{arxiv.1708.03333,
title = {Quantum adiabatic protocols using emergent local Hamiltonians},
author = {Ranjan Modak and Lev Vidmar and Marcos Rigol},
journal= {arXiv preprint arXiv:1708.03333},
year = {2017}
}
Comments
13 pages, 8 figures, as published