通过纠缠双光子吸收来操纵光致异构化过渡态。
Photoisomerization transition state manipulation by entangled two-photon absorption.
机构信息
Department of Chemistry, University of California, Irvine, CA 92697.
Department of Physics & Astronomy, University of California, Irvine, CA 92697.
出版信息
Proc Natl Acad Sci U S A. 2021 Nov 23;118(47). doi: 10.1073/pnas.2116868118.
Abstract
We demonstrate how two-photon excitation with quantum light can influence elementary photochemical events. The azobenzene → isomerization following entangled two-photon excitation is simulated using quantum nuclear wave packet dynamics. Photon entanglement modulates the nuclear wave packets by coherently controlling the transition pathways. The photochemical transition state during passage of the reactive conical intersection in azobenzene photoisomerization is strongly affected with a noticeable alteration of the product yield. Quantum entanglement thus provides a novel control knob for photochemical reactions. The distribution of the vibronic coherences during the conical intersection passage strongly depends on the shape of the initial wave packet created upon quantum light excitation. X-ray signals that can experimentally monitor this coherence are simulated.
摘要
我们展示了双光子激发与量子光如何影响基本光化学反应。通过量子核波包动力学模拟了纠缠双光子激发后的偶氮苯 → 异构化。光子纠缠通过相干地控制跃迁途径来调制核波包。在偶氮苯光异构化过程中通过反应锥形交叉的光化学过渡态受到强烈影响,产物产率发生明显改变。因此,量子纠缠为光化学反应提供了一个新的控制旋钮。在锥形交叉通过过程中,振动态相干的分布强烈依赖于量子光激发时创建的初始波包的形状。模拟了可以实验监测这种相干性的 X 射线信号。
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