Reading Qubits with Sequential Weak Measurements: Limits of Information Extraction
Cesar Lema, Aleix Bou-Comas, Atithi Acharya, Vadim Oganesyan, Anirvan Sengupta
TL;DR
This paper investigates the fundamental limits of extracting initial qubit information through sequential weak measurements, analyzing how measurement strength, duration, and intrinsic dynamics affect information retrieval in quantum systems.
Contribution
It introduces a mutual information framework to quantify information extraction limits in weak measurement schemes, including models with and without intrinsic dynamics, and derives optimal measurement durations.
Findings
Mutual information bounds manifest as plateaux indicating maximum extractable information.
Optimal measurement duration saturates the mutual information bounds.
Asymptotic expansion captures qualitative and quantitative features of information extraction.
Abstract
Quantum information processing and computation requires high accuracy qubit configuration readout. In many practical schemes, the initial qubit configuration has to be inferred from readout that is a time-dependent weak measurement record. However, a combination of the measurement scheme and intrinsic dynamics can end up scrambling the initial state and lose information irretrievably. Here, we study the information physics of quantum trajectories based on weak measurements in order to address the optimal achievable performance in qubit configuration readout for two realistic models of single qubit readout: (i) Model I is informationally complete, but without intrinsic dynamics; (ii) Model II is informationally incomplete weak measurements with intrinsic dynamics. We first use mutual information to characterize how much intrinsic information about the initial state is encoded in the…
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Taxonomy
TopicsQuantum Computing Algorithms and Architecture · Quantum Information and Cryptography · Quantum many-body systems