Anomalously reduced homogeneous broadening of two-dimensional electronic spectroscopy at high temperature by detailed balance

Ru Qiong Deng; Cheng Ge Liu; Yi Xuan Yao; Jing Yi Ran Jin; Hao Yue Zhang; Yin Song; Qing Ai

doi:10.1103/PhysRevA.109.052801

Anomalously reduced homogeneous broadening of two-dimensional electronic spectroscopy at high temperature by detailed balance

Ru Qiong Deng, Cheng Ge Liu, Yi Xuan Yao, Jing Yi Ran Jin, Hao Yue Zhang, Yin Song, Qing Ai

School of Optics and Photonics

Beijing Normal University

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Dissipation and decoherence of quantum systems in thermal environments is important to various spectroscopies. It is generally believed that dissipation can broaden the line shape of spectroscopies, and thus stronger system-bath interaction can result in more significant homogeneous broadening of two-dimensional electronic spectroscopy (2DES). Here we show that the case can be the opposite in the regime of electromagnetically induced transparency (EIT). We predict that assisted by EIT, the homogeneous broadening of the 2DES at a higher temperature can be significantly reduced due to the detailed balance. This anomalous effect is due to the long-lasting off-diagonal peaks in 2DES.

Original language	English
Article number	052801
Journal	Physical Review A
Volume	109
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevA.109.052801
Publication status	Published - May 2024

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10.1103/PhysRevA.109.052801

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title = "Anomalously reduced homogeneous broadening of two-dimensional electronic spectroscopy at high temperature by detailed balance",

abstract = "Dissipation and decoherence of quantum systems in thermal environments is important to various spectroscopies. It is generally believed that dissipation can broaden the line shape of spectroscopies, and thus stronger system-bath interaction can result in more significant homogeneous broadening of two-dimensional electronic spectroscopy (2DES). Here we show that the case can be the opposite in the regime of electromagnetically induced transparency (EIT). We predict that assisted by EIT, the homogeneous broadening of the 2DES at a higher temperature can be significantly reduced due to the detailed balance. This anomalous effect is due to the long-lasting off-diagonal peaks in 2DES.",

author = "Deng, {Ru Qiong} and Liu, {Cheng Ge} and Yao, {Yi Xuan} and Jin, {Jing Yi Ran} and Zhang, {Hao Yue} and Yin Song and Qing Ai",

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AU - Deng, Ru Qiong

AU - Liu, Cheng Ge

AU - Yao, Yi Xuan

AU - Jin, Jing Yi Ran

AU - Zhang, Hao Yue

AU - Song, Yin

AU - Ai, Qing

PY - 2024/5

Y1 - 2024/5

N2 - Dissipation and decoherence of quantum systems in thermal environments is important to various spectroscopies. It is generally believed that dissipation can broaden the line shape of spectroscopies, and thus stronger system-bath interaction can result in more significant homogeneous broadening of two-dimensional electronic spectroscopy (2DES). Here we show that the case can be the opposite in the regime of electromagnetically induced transparency (EIT). We predict that assisted by EIT, the homogeneous broadening of the 2DES at a higher temperature can be significantly reduced due to the detailed balance. This anomalous effect is due to the long-lasting off-diagonal peaks in 2DES.

AB - Dissipation and decoherence of quantum systems in thermal environments is important to various spectroscopies. It is generally believed that dissipation can broaden the line shape of spectroscopies, and thus stronger system-bath interaction can result in more significant homogeneous broadening of two-dimensional electronic spectroscopy (2DES). Here we show that the case can be the opposite in the regime of electromagnetically induced transparency (EIT). We predict that assisted by EIT, the homogeneous broadening of the 2DES at a higher temperature can be significantly reduced due to the detailed balance. This anomalous effect is due to the long-lasting off-diagonal peaks in 2DES.

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VL - 109

JO - Physical Review A

JF - Physical Review A

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ER -

Anomalously reduced homogeneous broadening of two-dimensional electronic spectroscopy at high temperature by detailed balance

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