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Research PaperResearchia:202607.17014

Locality of deep thermalisation through the lens of entanglement teleportation

Saptarshi Mandal

Abstract

Deep thermalisation characterises the emergence of universal quantum state ensembles on subsystems due to projective measurements on their complement. We study the notion of locality, or lack thereof, in this phenomenon by considering a subsystem partitioned into two disjoint subregions which remain causally disconnected at all times under unitary dynamics. We show that the onset of deep thermalisation in this geometry is fundamentally bounded by measurement-induced entanglement teleportation be...

Submitted: July 17, 2026Subjects: Quantum Physics; Quantum Computing

Description / Details

Deep thermalisation characterises the emergence of universal quantum state ensembles on subsystems due to projective measurements on their complement. We study the notion of locality, or lack thereof, in this phenomenon by considering a subsystem partitioned into two disjoint subregions which remain causally disconnected at all times under unitary dynamics. We show that the onset of deep thermalisation in this geometry is fundamentally bounded by measurement-induced entanglement teleportation between the subregions. While measurements on the environment generate entanglement across the disconnected partitions -- suggesting an apparent non-locality -- we demonstrate that generic locally interacting systems exhibit an emergent locality. Specifically, the timescales for both deep thermalisation and entanglement teleportation scale logarithmically with the distance separating the subregions. Exceptions to this include special circuits where the randomness of the measurement outcomes is perfectly transmitted to the ensemble of states of the subsystem, conditioned on the outcomes; in such cases the timescale for deep thermalisation is finite leading to genuine non-locality.


Source: arXiv:2607.15276v1 - http://arxiv.org/abs/2607.15276v1 PDF: https://arxiv.org/pdf/2607.15276v1 Original Link: http://arxiv.org/abs/2607.15276v1

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Date:
Jul 17, 2026
Topic:
Quantum Computing
Area:
Quantum Physics
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