Magnetic cavity coupling renders H2 ground states metastable, inverts singlet-triplet gaps, and stabilizes exotic antiaromatic states in rings like H4 and C4H4 by preventing Jahn-Teller distortions.
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Cavity-mediated interactions in an effective SSH Hamiltonian produce consistent topological phase diagrams across three markers, confirming edge states via correlations.
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Engineering molecular potential energy surfaces using magnetic cavity quantum electrodynamics
Magnetic cavity coupling renders H2 ground states metastable, inverts singlet-triplet gaps, and stabilizes exotic antiaromatic states in rings like H4 and C4H4 by preventing Jahn-Teller distortions.
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Topological markers for a one-dimensional fermionic chain coupled to a single-mode cavity
Cavity-mediated interactions in an effective SSH Hamiltonian produce consistent topological phase diagrams across three markers, confirming edge states via correlations.