AI Article Synopsis
- The Born-Huang expansion is critical for analyzing potential energy surfaces and non-adiabatic couplings (NACs) in molecules, but it struggles with systems that interact with quantum light.
- Inspired by previous research, a new generalized Born-Huang expansion has been developed within a macroscopic quantum electrodynamics (QED) framework, allowing for a better description of electromagnetic effects and the influence of dressed photons (polaritons) on NACs.
- This new approach enables classification of different types of NACs and provides a way to estimate polaritonic electronic NACs without free parameters, showcasing its advantages through specific examples like a hydrogen atom in free space.
Article Abstract
Born-Huang expansion is the cornerstone for studying potential energy surfaces and non-adiabatic couplings (NACs) in molecular systems. However, the traditional approach is insufficient to describe the molecular system, which strongly interacts with quantum light. Inspired by the work by Schäfer et al., we develop the generalized Born-Huang expansion theory within a macroscopic quantum electrodynamics (QED) framework. The theory we present allows us to describe electromagnetic vacuum fluctuations in dielectric media and incorporate the effects of dressed photons (or polaritons) into NACs. With the help of the generalized Born-Huang expansion, we clearly classify electronic nuclear NACs, polaritonic nuclear NACs, and polaritonic electronic NACs. Furthermore, to demonstrate the advantage of the macroscopic QED framework, we estimate polaritonic electronic NACs without any free parameter, such as the effective mode volume, and demonstrate the distance dependence of the polaritonic electronic NACs in a silver planar system. In addition, we take a hydrogen atom in free space as an example and derive spontaneous emission rates from photonic electronic NACs (polaritonic electronic NACs are reduced to photonic electronic NACs). We believe that this work not only provides an avenue for the theoretical exploration of NACs in a nucleus-electron-polariton coupled system but also offers a more comprehensive understanding for molecules coupled with quantum light.
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| http://dx.doi.org/10.1063/5.0195087 | DOI Listing |
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