Chemical reactivity under collective vibrational strong coupling
Recent experiments of chemical reactions in optical cavities have shown great promise to alter and steer chemical reactions but still remain poorly understood theoretically. In particular the origin of resonant effects between the cavity and certain vibrational modes in the collective limit is still...
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| Abstract | Recent experiments of chemical reactions in optical cavities have shown great promise to alter and steer chemical reactions but still remain poorly understood theoretically. In particular the origin of resonant effects between the cavity and certain vibrational modes in the collective limit is still subject to active research. In this paper, we study unimolecular dissociation reactions of many molecules collectively interacting with an infrared cavity mode through their vibrational dipole moment. We find that the reaction rate can slow down by increasing the number of aligned molecules if the cavity mode is resonant with a vibrational frequency of the molecules. We also discover a simple scaling relation that scales with the collective Rabi splitting to estimate the onset of reaction rate modification by collective vibrational strong coupling and numerically demonstrate these effects for up to 10,000 molecules. |
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| AbstractList | Recent experiments of chemical reactions in optical cavities have shown great
promise to alter and steer chemical reactions but still remain poorly
understood theoretically. In particular the origin of resonant effects between
the cavity and certain vibrational modes in the collective limit is still
subject to active research. In this paper, we study unimolecular dissociation
reactions of many molecules collectively interacting with an infrared cavity
mode through their vibrational dipole moment. We find that the reaction rate
can slow down by increasing the number of aligned molecules if the cavity mode
is resonant with a vibrational frequency of the molecules. We also discover a
simple scaling relation that scales with the collective Rabi splitting to
estimate the onset of reaction rate modification by collective vibrational
strong coupling and numerically demonstrate these effects for up to 10,000
molecules. Recent experiments of chemical reactions in optical cavities have shown great promise to alter and steer chemical reactions but still remain poorly understood theoretically. In particular the origin of resonant effects between the cavity and certain vibrational modes in the collective limit is still subject to active research. In this paper, we study unimolecular dissociation reactions of many molecules collectively interacting with an infrared cavity mode through their vibrational dipole moment. We find that the reaction rate can slow down by increasing the number of aligned molecules if the cavity mode is resonant with a vibrational frequency of the molecules. We also discover a simple scaling relation that scales with the collective Rabi splitting to estimate the onset of reaction rate modification by collective vibrational strong coupling and numerically demonstrate these effects for up to 10,000 molecules. |
| Author | Flick, Johannes Yelin, Susanne F Wang, Derek S |
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| BackLink | https://doi.org/10.48550/arXiv.2206.08937$$DView paper in arXiv https://doi.org/10.1063/5.0124551$$DView published paper (Access to full text may be restricted) |
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| DOI | 10.48550/arxiv.2206.08937 |
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| Snippet | Recent experiments of chemical reactions in optical cavities have shown great promise to alter and steer chemical reactions but still remain poorly understood... Recent experiments of chemical reactions in optical cavities have shown great promise to alter and steer chemical reactions but still remain poorly understood... |
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| SubjectTerms | Chemical reactions Coupling (molecular) Dipole moments Holes Physics - Chemical Physics Physics - Computational Physics Physics - Quantum Physics Vibration mode |
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| Title | Chemical reactivity under collective vibrational strong coupling |
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