Probing non-equilibrium physics through the two-body Bell correlator

• URL: http://arxiv.org/abs/2510.27657v1
• Date: Fri, 31 Oct 2025 17:29:03 GMT
• Title: Probing non-equilibrium physics through the two-body Bell correlator
• Authors: Abhishek Muhuri, Tanoy Kanti Konar, Leela Ganesh Chandra Lakkaraju, Aditi Sen De,
• Abstract summary: We identify equilibrium criticalities and phases from the dynamics of a system, known as a dynamical quantum phase transition (DQPT)<n>In this study, we consider two quenching protocols, namely sudden quenches of the magnetic field strength and the interaction fall-off rate.<n>This pronounced behavior defines a threshold, distinguishing intra-phase from inter-phase quenches, remaining valid regardless of the strength of long-range interactions, anisotropy, and system sizes.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Identifying equilibrium criticalities and phases from the dynamics of a system, known as a dynamical quantum phase transition (DQPT), is a challenging task when relying solely on local observables. We exhibit that the experimentally accessible two-body Bell operator, originally designed to detect nonlocal correlations in quantum states, serves as an effective witness of DQPTs in a long-range (LR) XY spin chain subjected to a magnetic field, where the interaction strength decays as a power law. Following a sudden quench of the system parameters, the Bell operator between nearest-neighbor spins exhibits a distinct drop at the critical boundaries. In this study, we consider two quenching protocols, namely sudden quenches of the magnetic field strength and the interaction fall-off rate. This pronounced behavior defines a threshold, distinguishing intra-phase from inter-phase quenches, remaining valid regardless of the strength of long-range interactions, anisotropy, and system sizes. Comparative analyses further demonstrate that conventional classical and quantum correlators, including entanglement, fail to capture this transition during dynamics.

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