Matrix product states for gauge field theories

Matrix product states for gauge field theories

The matrix product state formalism is used to simulate Hamiltonian lattice gauge theories. To this end, we define matrix product state manifolds which are manifestly gauge invariant. As an application, we study (1+1)-dimensional one flavor quantum electrodynamics, also known as the massive Schwinger...

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Veröffentlicht in:Physical review letters 2014-08, Vol.113 (9), p.091601-091601, Article 091601
Hauptverfasser: Buyens, Boye, Haegeman, Jutho, Van Acoleyen, Karel, Verschelde, Henri, Verstraete, Frank
Format: Artikel
Sprache:eng
Schlagworte:
Continuums
Dynamical systems
Dynamics
Electric fields
Excitation
Gages
Gauges
Invariants
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Zusammenfassung:The matrix product state formalism is used to simulate Hamiltonian lattice gauge theories. To this end, we define matrix product state manifolds which are manifestly gauge invariant. As an application, we study (1+1)-dimensional one flavor quantum electrodynamics, also known as the massive Schwinger model, and are able to determine very accurately the ground-state properties and elementary one-particle excitations in the continuum limit. In particular, a novel particle excitation in the form of a heavy vector boson is uncovered, compatible with the strong coupling expansion in the continuum. We also study full quantum nonequilibrium dynamics by simulating the real-time evolution of the system induced by a quench in the form of a uniform background electric field.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.113.091601