報(bào)告題目: The Uncertainty Principle of Quantum Processes
報(bào)告人: 肖運(yùn)龍 研究員(新加坡南洋理工大學(xué))
報(bào)告時(shí)間: 2020年10月16日(星期五), 9:00-10:00
2020年10月23日(星期五),9:00-10:00
報(bào)告地點(diǎn): 騰訊會(huì)議, 會(huì)議號(hào):252456902, 密碼:201016
報(bào)告摘要: Heisenberg’s uncertainty principle, which imposes intrinsic restrictions on our ability to predict the outcomes of incompatible quantum measurements to arbitrary precision, demonstrates one of the key differences between classical and quantum mechanics. The physical systems considered in the uncertainty principle are static in nature and described mathematically with a quantum state in a Hilbert space. However, many physical systems are dynamic in nature and described with the formalism of a quantum channel. Here we show that the uncertainty principle can be reformulated to include process-measurements that are performed on quantum channels. Since both quantum states and quantum measurements are themselves special cases of quantum channels, our formalism encapsulates the uncertainty principle in its utmost generality. More specifically, we obtain expressions that generalize the Maassen-Uffink uncertainty relation and the universal uncertainty relations from quantum states to quantum channels.
報(bào)告人簡(jiǎn)介: 肖運(yùn)龍����,南洋理工大學(xué)研究員。主要研究領(lǐng)域:量子信息的數(shù)學(xué)基礎(chǔ)���,不確定性關(guān)系����,量子資源理論���。已在《The European Physical Journal C》,《Physical Review A 》���,《Physical Review D 》��,《Scientific Reports》���,《Journal of Physics A: Mathematical and Theoretical》����,《Quantum Information Processing》����,《New Journal of Physics》等發(fā)表科研論文20余篇。
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