Litcius/Paper detail

Non-Gaussian entanglement renormalization for quantum fields

J.J. Fernández-Melgarejo, J. Molina-Vilaplana

2020Journal of High Energy Physics21 citationsDOIOpen Access PDF

Abstract

A bstract In this work, a non-Gaussian cMERA tensor network for interacting quantum field theories (icMERA) is presented. This consists of a continuous tensor network circuit in which the generator of the entanglement renormalization of the wavefunction is nonperturbatively extended with nonquadratic variational terms. The icMERA circuit nonperturbatively implements a set of scale dependent nonlinear transformations on the fields of the theory, which suppose a generalization of the scale dependent linear transformations induced by the Gaussian cMERA circuit. Here we present these transformations for the case of self-interacting scalar and fermionic field theories. Finally, the icMERA tensor network is fully optimized for the λϕ 4 theory in (1 + 1) dimensions. This allows us to evaluate, nonperturbatively, the connected parts of the two- and four-point correlation functions. Our results show that icMERA wavefunctionals encode proper non-Gaussian correlations of the theory, thus providing a new variational tool to study phenomena related with strongly interacting field theories.

Topics & Concepts

PhysicsRenormalizationQuantum entanglementQuantum mechanicsQuantum field theoryTensor fieldScalar (mathematics)Tensor (intrinsic definition)Scalar fieldQuantumMathematical physicsNonlinear systemWave functionGaussianField (mathematics)Generator (circuit theory)Functional renormalization groupScalar field theoryGeneralizationRenormalization groupQuantum discordQuantum electrodynamicsQuantum circuitAuxiliary fieldSymmetric tensorTheoretical physicsQuantum many-body systemsQuantum Information and CryptographyBlack Holes and Theoretical Physics