Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory

Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory

We construct entanglement renormalization schemes that provably approximate the ground states of noninteracting-fermion nearest-neighbor hopping Hamiltonians on the one-dimensional discrete line and the two-dimensional square lattice. These schemes give hierarchical quantum circuits that build up th...

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Main Authors: Jutho Haegeman, Brian Swingle, Michael Walter, Jordan Cotler, Glen Evenbly, Volkher B. Scholz
Format: Article
Language:English
Published: American Physical Society 2018-01-01
Series:Physical Review X
Online Access:http://doi.org/10.1103/PhysRevX.8.011003
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spelling doaj-05b44a0ca5ca49bd92e17e98516fa75b2020-11-25T00:35:30ZengAmerican Physical SocietyPhysical Review X2160-33082018-01-018101100310.1103/PhysRevX.8.011003Rigorous Free-Fermion Entanglement Renormalization from Wavelet TheoryJutho HaegemanBrian SwingleMichael WalterJordan CotlerGlen EvenblyVolkher B. ScholzWe construct entanglement renormalization schemes that provably approximate the ground states of noninteracting-fermion nearest-neighbor hopping Hamiltonians on the one-dimensional discrete line and the two-dimensional square lattice. These schemes give hierarchical quantum circuits that build up the states from unentangled degrees of freedom. The circuits are based on pairs of discrete wavelet transforms, which are approximately related by a “half-shift”: translation by half a unit cell. The presence of the Fermi surface in the two-dimensional model requires a special kind of circuit architecture to properly capture the entanglement in the ground state. We show how the error in the approximation can be controlled without ever performing a variational optimization.http://doi.org/10.1103/PhysRevX.8.011003
collection DOAJ
language English
format Article
sources DOAJ
author Jutho Haegeman
Brian Swingle
Michael Walter
Jordan Cotler
Glen Evenbly
Volkher B. Scholz
spellingShingle Jutho Haegeman
Brian Swingle
Michael Walter
Jordan Cotler
Glen Evenbly
Volkher B. Scholz
Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
Physical Review X
author_facet Jutho Haegeman
Brian Swingle
Michael Walter
Jordan Cotler
Glen Evenbly
Volkher B. Scholz
author_sort Jutho Haegeman
title Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
title_short Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
title_full Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
title_fullStr Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
title_full_unstemmed Rigorous Free-Fermion Entanglement Renormalization from Wavelet Theory
title_sort rigorous free-fermion entanglement renormalization from wavelet theory
publisher American Physical Society
series Physical Review X
issn 2160-3308
publishDate 2018-01-01
description We construct entanglement renormalization schemes that provably approximate the ground states of noninteracting-fermion nearest-neighbor hopping Hamiltonians on the one-dimensional discrete line and the two-dimensional square lattice. These schemes give hierarchical quantum circuits that build up the states from unentangled degrees of freedom. The circuits are based on pairs of discrete wavelet transforms, which are approximately related by a “half-shift”: translation by half a unit cell. The presence of the Fermi surface in the two-dimensional model requires a special kind of circuit architecture to properly capture the entanglement in the ground state. We show how the error in the approximation can be controlled without ever performing a variational optimization.
url http://doi.org/10.1103/PhysRevX.8.011003
work_keys_str_mv AT juthohaegeman rigorousfreefermionentanglementrenormalizationfromwavelettheory
AT brianswingle rigorousfreefermionentanglementrenormalizationfromwavelettheory
AT michaelwalter rigorousfreefermionentanglementrenormalizationfromwavelettheory
AT jordancotler rigorousfreefermionentanglementrenormalizationfromwavelettheory
AT glenevenbly rigorousfreefermionentanglementrenormalizationfromwavelettheory
AT volkherbscholz rigorousfreefermionentanglementrenormalizationfromwavelettheory
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