Litcius/Paper detail

Reconstruction of the quasinormal spectrum from pole skipping

Sašo Grozdanov, Timotej Lemut, Juan F. Pedraza

2023Physical review. D/Physical review. D.18 citationsDOIOpen Access PDF

Abstract

The holographic gauge/gravity duality provides an explicit reduction of quantum field theory (QFT) calculations in the semiclassical large-$N$ limit to sets of ``gravitational'' differential equations whose analysis can reveal all details of the spectra of thermal QFT correlators. We argue that in certain cases, a complete reconstruction of the spectrum and of the corresponding correlator is possible from only the knowledge of an infinite, discrete set of pole-skipping points traversed by a single (hydrodynamic) mode computed in a series expansion in an inverse number of spacetime dimensions. Conceptually, this reduces the computation of a QFT correlator spectrum to performing a set of purely algebraic manipulations. With the help of the pole-skipping analysis, we also uncover a novel structure underpinning the coefficients that enter the hydrodynamic dispersion relations.

Topics & Concepts

Semiclassical physicsPhysicsDuality (order theory)Theoretical physicsGravitational waveGravitationLimit (mathematics)Dispersion relationSpacetimeSpectrum (functional analysis)ComputationQuantum gravityMathematical physicsClassical mechanicsMathematicsQuantumMathematical analysisQuantum mechanicsPure mathematicsAlgorithmBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesParticle physics theoretical and experimental studies