利用共轨双折射干涉仪进行相位循环和双量子二维电子光谱分析

Daniel Timmer, Daniel C. Lünemann, Moritz Gittinger, Antonietta De Sio, Cristian Manzoni, Giulio Cerullo, Christoph Lienau
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引用次数: 0

摘要

在二维电子显微镜(2DES)中选择不同的量子通路,可以特别深入地了解各种材料中的相干和不相干相互作用以及量子动力学。这包括为传统的单量子二维电子显微镜分离重相和非重相途径,以及记录双量子和零量子光谱的能力。这种先进的 2DES 方案在部分或完全共线的几何条件下执行时,通常需要相位循环。一种特别简单有效的 2DES 实现方法是利用在线双折射干涉仪--基于变换楔的同相脉冲电子编码系统(TWINS)--来生成固有相位稳定的准直激励脉冲对。在这里,我们展示了如何对 TWINS 进行改装,以实现相位循环和实验访问孤立的量子通路。我们通过在分子 J 聚合体上记录重相、非重相、零量子和双量子 2DES 演示了这些新功能。这种易于实现的扩展为基于 TWINS 的二维电子衍射在多维全光和光发射光谱及显微镜中的应用开辟了新的实验可能性。
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Phase-cycling and double-quantum two-dimensional electronic spectroscopy using a common-path birefringent interferometer
Selecting distinct quantum pathways in two-dimensional electronic spectroscopy (2DES) can give particularly deep insights into coherent and incoherent interactions and quantum dynamics in various materials. This includes isolating rephasing and non-rephasing pathways for conventional single-quantum 2DES, but also the ability to record double- and zero-quantum spectra. Such advanced 2DES schemes usually require phase-cycling when performed in a partially or fully collinear geometry. A particularly simple and effective implementation of 2DES utilizes an in-line birefringent interferometer, the Translating-Wedge-based Identical pulses eNcoding System (TWINS), for the generation of an inherently phase-stable collinear excitation pulse pair. Here, we demonstrate how the TWINS can be adapted to allow for phase-cycling and experimental access to isolated quantum pathways. These new capabilities are demonstrated by recording rephasing, non-rephasing, zero-quantum and double-quantum 2DES on a molecular J-aggregate. This easy-to-implement extension opens up new experimental possibilities for TWINS-based 2DES in multidimensional all-optical and photoemission spectroscopy and microscopy.
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