A Quantitative Study on System-Environment Entanglement in Pure-Dephasing Evolution
高橋雅也 博士 - 國立台灣師範大學物理系
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2026-03-16 12:10:00 ~
2026-03-16 13:10:00See event details for additional info.
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理學教學新大樓物理系1F 36173會議室
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A Quantitative Study on System-Environment Entanglement in Pure-Dephasing Evolution
高橋雅也 博士 - 國立台灣師範大學物理系
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日期 |
2026-03-16 |
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時間 |
12:10-13:10 |
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地點 |
理學教學新大樓物理系1F 36173會議室 |
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領域 |
Quantum Information Science |
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講者 |
高橋雅也 博士 - 國立台灣師範大學物理系 |
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題目 |
A Quantitative Study on System-Environment Entanglement in Pure-Dephasing Evolution |
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摘要 |
In open quantum systems, pure-dephasing interactions naturally generate system-environment entanglement from initial coherences. While this qualitative effect is well known, quantifying the created entanglement under general mixed-state conditions remains theoretically challenging. In this seminar, I will present a lower bound and an upper bound on entanglement generation, measured by the relative entropy of entanglement, for arbitrary initial conditions. The lower-bound of entanglement is given by the initial relative entropy of coherence minus the residual uncertainty after an optimal environmental measurement. The upper-bound is using the decoherence strength,showing that larger entanglement yields more decoherence. For two-dimensional central systems, The lower bound gets simplified to a closed-formula where uncertainty on the environment is represented as the fidelity between environmental states. I will show plots demonstrating the analytical results using the spin-boson model , highlighting the real-time entanglement dynamics across the Markovian to non-Markovian crossover. This talk is based on my work [1].
References [1]M. Takahashi and J. K. Korbicz (2025). Coherence-assisted entanglement activation during open evolution. Physical Review A 112, 032222. |
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