Statistical Characterization of Entanglement Degradation Under Markovian Noise in Composite Quantum Systems

• URL: http://arxiv.org/abs/2505.05431v1
• Date: Thu, 08 May 2025 17:21:39 GMT
• Title: Statistical Characterization of Entanglement Degradation Under Markovian Noise in Composite Quantum Systems
• Authors: Nunzia Cerrato, Sauro Succi, Giacomo De Palma, Vittorio Giovannetti,
• Abstract summary: We present a statistical approach to study the impact of different noise models on entanglement in quantum systems.<n>We quantify entanglement degradation using the Positive Partial Transpose Time metric, which measures how long entanglement persists under noise.<n>Our results demonstrate the effectiveness of this approach for investigating the resilience of quantum systems under Markovian noise.
• Score: 4.249842620609683
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Understanding how noise degrades entanglement is crucial for the development of reliable quantum technologies. While the Markovian approximation simplifies the analysis of noise, it remains computationally demanding, particularly for high-dimensional systems like quantum memories. In this paper, we present a statistical approach to study the impact of different noise models on entanglement in composite quantum systems. By comparing global and local noise scenarios, we quantify entanglement degradation using the Positive Partial Transpose Time (PPTT) metric, which measures how long entanglement persists under noise. When the sampling of different noise scenarios is performed under controlled and homogeneous conditions, our analysis reveals that systems subjected to global noise tend to exhibit longer PPTTs, whereas those influenced by independent local noise models display the shortest entanglement persistence. To carry out this analysis, we employ a computational method proposed by Cao and Lu, which accelerates the simulation of PPTT distributions and enables efficient analysis of systems with dimensions up to $D=8$. Our results demonstrate the effectiveness of this approach for investigating the resilience of quantum systems under Markovian noise.

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