Reply to “Comment on: ‘Isolating Vibrational Polariton 2D-IR Transmission Spectra’”

Rong Duan; Joseph N. Mastron; Yin Song; Kevin J. Kubarych

doi:10.1021/acs.jpclett.2c02823

Reply to “Comment on: ‘Isolating Vibrational Polariton 2D-IR Transmission Spectra’”

Rong Duan, Joseph N. Mastron, Yin Song, Kevin J. Kubarych^*

^*Corresponding author for this work

University of Michigan, Ann Arbor

Research output: Contribution to journal › Review article › peer-review

3 Citations (Scopus)

Abstract

In a Comment on our recent Letter, the authors take issue with our method of refining 2D-IR transmission spectra to remove a background contribution that arises from nonpolaritonic molecules in the cavity. In our response to their Comment, we describe how our approach was motivated by the previous work of the authors, and we present a spatially dependent molecule-cavity Tavis-Cummings model that can account for the significant response from localized molecules with nonzero oscillator strengths. The telltale signature of the localized molecule response is the spectral diffusion dynamics of the bare W(CO)₆ molecules in the polar butyl acetate solvent. Inhomogeneous broadening is absent from polaritonic states due to the extreme degree of exchange narrowing in coupling very large numbers of molecules to a cavity mode.

Original language	English
Pages (from-to)	1046-1051
Number of pages	6
Journal	Journal of Physical Chemistry Letters
Volume	14
Issue number	4
DOIs	https://doi.org/10.1021/acs.jpclett.2c02823
Publication status	Published - 2 Feb 2023
Externally published	Yes

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10.1021/acs.jpclett.2c02823

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title = "Reply to “Comment on: {\textquoteleft}Isolating Vibrational Polariton 2D-IR Transmission Spectra{\textquoteright}”",

abstract = "In a Comment on our recent Letter, the authors take issue with our method of refining 2D-IR transmission spectra to remove a background contribution that arises from nonpolaritonic molecules in the cavity. In our response to their Comment, we describe how our approach was motivated by the previous work of the authors, and we present a spatially dependent molecule-cavity Tavis-Cummings model that can account for the significant response from localized molecules with nonzero oscillator strengths. The telltale signature of the localized molecule response is the spectral diffusion dynamics of the bare W(CO)6 molecules in the polar butyl acetate solvent. Inhomogeneous broadening is absent from polaritonic states due to the extreme degree of exchange narrowing in coupling very large numbers of molecules to a cavity mode.",

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AU - Duan, Rong

AU - Mastron, Joseph N.

AU - Song, Yin

AU - Kubarych, Kevin J.

PY - 2023/2/2

Y1 - 2023/2/2

N2 - In a Comment on our recent Letter, the authors take issue with our method of refining 2D-IR transmission spectra to remove a background contribution that arises from nonpolaritonic molecules in the cavity. In our response to their Comment, we describe how our approach was motivated by the previous work of the authors, and we present a spatially dependent molecule-cavity Tavis-Cummings model that can account for the significant response from localized molecules with nonzero oscillator strengths. The telltale signature of the localized molecule response is the spectral diffusion dynamics of the bare W(CO)6 molecules in the polar butyl acetate solvent. Inhomogeneous broadening is absent from polaritonic states due to the extreme degree of exchange narrowing in coupling very large numbers of molecules to a cavity mode.

AB - In a Comment on our recent Letter, the authors take issue with our method of refining 2D-IR transmission spectra to remove a background contribution that arises from nonpolaritonic molecules in the cavity. In our response to their Comment, we describe how our approach was motivated by the previous work of the authors, and we present a spatially dependent molecule-cavity Tavis-Cummings model that can account for the significant response from localized molecules with nonzero oscillator strengths. The telltale signature of the localized molecule response is the spectral diffusion dynamics of the bare W(CO)6 molecules in the polar butyl acetate solvent. Inhomogeneous broadening is absent from polaritonic states due to the extreme degree of exchange narrowing in coupling very large numbers of molecules to a cavity mode.

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Reply to “Comment on: ‘Isolating Vibrational Polariton 2D-IR Transmission Spectra’”

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