Litcius/Paper detail

Hamiltonian truncation in Anti-de Sitter spacetime

Matthijs Hogervorst, Marco Meineri, João Penedones, Kamran Salehi Vaziri

2021Journal of High Energy Physics21 citationsDOIOpen Access PDF

Abstract

A bstract Quantum Field Theories (QFTs) in Anti-de Sitter (AdS) spacetime are often strongly coupled when the radius of AdS is large, and few methods are available to study them. In this work, we develop a Hamiltonian truncation method to compute the energy spectrum of QFTs in two-dimensional AdS. The infinite volume of constant timeslices of AdS leads to divergences in the energy levels. We propose a simple prescription to obtain finite physical energies and test it with numerical diagonalization in several models: the free massive scalar field, ϕ 4 theory, Lee-Yang and Ising field theory. Along the way, we discuss spontaneous symmetry breaking in AdS and derive a compact formula for perturbation theory in quantum mechanics at arbitrary order. Our results suggest that all conformal boundary conditions for a given theory are connected via bulk renormalization group flows in AdS.

Topics & Concepts

PhysicsMathematical physicsSpacetimeAnti-de Sitter spaceHamiltonian (control theory)De Sitter universeScalar fieldQuantum field theoryConformal field theoryRenormalizationQuantum field theory in curved spacetimeRenormalization groupBoundary value problemCosmological constantScalar field theoryQuantum mechanicsDe Sitter spaceIsing modelScalar (mathematics)Space timeSymmetry breakingConformal mapTruncation (statistics)Perturbation theory (quantum mechanics)Classical mechanicsCritical phenomenaTheoretical physicsBoundary conformal field theoryConformal anomalyQuantum electrodynamicsConformal symmetryCoupling constantSpontaneous symmetry breakingQuantum gravityFock spaceEffective field theoryLattice field theoryBlack Holes and Theoretical PhysicsAdvanced Operator Algebra ResearchCosmology and Gravitation Theories