English

Probing beyond ETH at large $c$

High Energy Physics - Theory 2018-08-01 v3 Statistical Mechanics

Abstract

We study probe corrections to the Eigenstate Thermalization Hypothesis (ETH) in the context of 2D CFTs with large central charge and a sparse spectrum of low dimension operators. In particular, we focus on observables in the form of non-local composite operators Oobs(x)=OL(x)OL(0)\mathcal{O}_{obs}(x)=\mathcal{O}_L(x)\mathcal{O}_L(0) with hLch_L\ll c. As a light probe, Oobs(x)\mathcal{O}_{obs}(x) is constrained by ETH and satisfies Oobs(x)hHOobs(x)micro\langle \mathcal{O}_{obs}(x)\rangle_{h_H}\approx \langle \mathcal{O}_{obs}(x)\rangle_{\text{micro}} for a high energy energy eigenstate hH| h_H\rangle. In the CFTs of interests, Oobs(x)hH\langle \mathcal{O}_{obs}(x)\rangle_{h_H} is related to a Heavy-Heavy-Light-Light (HL) correlator, and can be approximated by the vacuum Virasoro block, which we focus on computing. A sharp consequence of ETH for Oobs(x)\mathcal{O}_{obs}(x) is the so called "forbidden singularities", arising from the emergent thermal periodicity in imaginary time. Using the monodromy method, we show that finite probe corrections of the form O(hL/c)\mathcal{O}(h_L/c) drastically alter both sides of the ETH equality, replacing each thermal singularity with a pair of branch-cuts. Via the branch-cuts, the vacuum blocks are connected to infinitely many additional "saddles". We discuss and verify how such violent modification in analytic structure leads to a natural guess for the blocks at finite cc: a series of zeros that condense into branch cuts as cc\to\infty. We also discuss some interesting evidences connecting these to the Stoke's phenomena, which are non-perturbative ece^{-c} effects. As a related aspect of these probe modifications, we also compute the Renyi-entropy SnS_n in high energy eigenstates on a circle. For subsystems much larger than the thermal length, we obtain a WKB solution to the monodromy problem, and deduce from this the entanglement spectrum.

Cite

@article{arxiv.1712.03464,
  title  = {Probing beyond ETH at large $c$},
  author = {Thomas Faulkner and Huajia Wang},
  journal= {arXiv preprint arXiv:1712.03464},
  year   = {2018}
}

Comments

35 pages, 40 figures, additional results and comments added

R2 v1 2026-06-22T23:13:20.920Z