Nonlocality and entanglement in measured critical quantum Ising chains
- URL: http://arxiv.org/abs/2301.08268v2
- Date: Tue, 27 Jun 2023 18:07:12 GMT
- Title: Nonlocality and entanglement in measured critical quantum Ising chains
- Authors: Zack Weinstein, Rohith Sajith, Ehud Altman, Samuel J. Garratt
- Abstract summary: Local degrees of freedom in critical states exhibit long-range entanglement.
We study the effects of measurements, performed with a finite density in space, on the ground state of the one-dimensional transverse-field Ising model at criticality.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We study the effects of measurements, performed with a finite density in
space, on the ground state of the one-dimensional transverse-field Ising model
at criticality. Local degrees of freedom in critical states exhibit long-range
entanglement, and as a result, local measurements can have highly nonlocal
effects. Our analytical investigation of correlations and entanglement in the
ensemble of measured states is based on properties of the Ising conformal field
theory (CFT), where measurements appear as (1+0)-dimensional defects in the
(1+1)-dimensional Euclidean spacetime. So that we can verify our predictions
using large-scale free-fermion numerics, we restrict ourselves to
parity-symmetric measurements. To describe their averaged effects analytically
we use a replica approach, and we show that the defect arising in the replica
theory is an irrelevant perturbation to the Ising CFT. Strikingly, the
asymptotic scalings of averaged correlations and entanglement entropy are
therefore unchanged relative to the ground state. In contrast, the defect
generated by postselecting on the most likely measurement outcomes is exactly
marginal. We then find that the exponent governing postmeasurement order
parameter correlations, as well as the ''effective central charge'' governing
the scaling of entanglement entropy, vary continuously with the density of
measurements in space. Our work establishes new connections between the effects
of measurements on many-body quantum states and of physical defects on
low-energy equilibrium properties.
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