The coherent-state transformation in QED-CC theory renormalizes correlation energy and ground state via the mean-field molecular dipole expectation value, using photon-added coherent states and breaking origin invariance for charged molecules.
Molec- ular orbital theory in cavity QED environments
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Cavity-induced g-factor modifications in relativistic Jahn-Teller systems are relevant only in weak spin-orbit coupling, quenched in strong coupling, and opposite in sign for single-electron versus single-hole cases.
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The coherent-state transformation in quantum electrodynamics coupled cluster theory
The coherent-state transformation in QED-CC theory renormalizes correlation energy and ground state via the mean-field molecular dipole expectation value, using photon-added coherent states and breaking origin invariance for charged molecules.
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Spin-cavity interactions in relativistic Jahn-Teller systems under strong light-matter coupling
Cavity-induced g-factor modifications in relativistic Jahn-Teller systems are relevant only in weak spin-orbit coupling, quenched in strong coupling, and opposite in sign for single-electron versus single-hole cases.