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Main Authors: McGinley, Max, Fava, Michele, Parameswaran, S. A.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.06484
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author McGinley, Max
Fava, Michele
Parameswaran, S. A.
author_facet McGinley, Max
Fava, Michele
Parameswaran, S. A.
contents We study the behaviour of linear and nonlinear spectroscopic quantities in two-dimensional topologically ordered systems, which host anyonic excitations exhibiting fractional statistics. We highlight the role that braiding phases between anyons have on the dynamics of such quasiparticles, which as we show dictates the behaviour of both linear response coefficients at finite temperatures, as well as nonlinear pump-probe response coefficients. These quantities, which act as probes of temporal correlations in the system, are shown to obey distinctive universal forms at sufficiently long timescales. As well as providing an experimentally measurable fingerprint of anyonic statistics, the universal behaviour that we find also demonstrates anomalously fast thermal relaxation: correlation functions decay as a `squished exponential' $C(t) \sim \exp(-[t/τ]^{3/2})$ at long times. We attribute this unusual asymptotic form to the nonlocal nature of interactions between anyons, which allows relaxation to occur much faster than in systems with quasiparticles interacting via local, non-statistical interactions. While our results apply to any Abelian or non-Abelian topological phase in two-dimensions, we discuss in particular the implications for candidate quantum spin liquid materials, wherein the relevant quantities can be measured using pre-existing time-resolved terahertz-domain spectroscopic techniques.
format Preprint
id arxiv_https___arxiv_org_abs_2402_06484
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Anomalous thermal relaxation and pump-probe spectroscopy of 2D topologically ordered systems
McGinley, Max
Fava, Michele
Parameswaran, S. A.
Strongly Correlated Electrons
Mesoscale and Nanoscale Physics
Quantum Physics
We study the behaviour of linear and nonlinear spectroscopic quantities in two-dimensional topologically ordered systems, which host anyonic excitations exhibiting fractional statistics. We highlight the role that braiding phases between anyons have on the dynamics of such quasiparticles, which as we show dictates the behaviour of both linear response coefficients at finite temperatures, as well as nonlinear pump-probe response coefficients. These quantities, which act as probes of temporal correlations in the system, are shown to obey distinctive universal forms at sufficiently long timescales. As well as providing an experimentally measurable fingerprint of anyonic statistics, the universal behaviour that we find also demonstrates anomalously fast thermal relaxation: correlation functions decay as a `squished exponential' $C(t) \sim \exp(-[t/τ]^{3/2})$ at long times. We attribute this unusual asymptotic form to the nonlocal nature of interactions between anyons, which allows relaxation to occur much faster than in systems with quasiparticles interacting via local, non-statistical interactions. While our results apply to any Abelian or non-Abelian topological phase in two-dimensions, we discuss in particular the implications for candidate quantum spin liquid materials, wherein the relevant quantities can be measured using pre-existing time-resolved terahertz-domain spectroscopic techniques.
title Anomalous thermal relaxation and pump-probe spectroscopy of 2D topologically ordered systems
topic Strongly Correlated Electrons
Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2402.06484