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Abstract
We combine ab initio molecular electronic Hamiltonians with a cavity quantum electrodynamics model for dissipative photonic modes and apply mean-field theories to the ground- and excited-states of resulting polaritonic systems. In particular, we develop a non-Hermitian configuration interaction singles theory for mean-field ground- and excited-states of the molecular system strongly interacting with a photonic mode, and apply these methods to elucidating the phenomenology of paradigmatic polaritonic systems. We leverage the Psi4Numpy framework to yield open-source and accessible reference implementations of these methods.
Supplementary weblinks
Title
hilbert package
Description
Link to the location of the hilbert software package where the source code for our reference implementations can be found.
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ChemCompute Link 1
Description
Link to launch Jupyter notebook on the ChemCompute server to run illustrative calculations on the Formaldehyde molecule.
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ChemCompute Link 2
Description
Link to launch Jupyter notebook on the ChemCompute server to run illustrative calculations on the MgH+ molecule.
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