Quantum back-action from collective lattice polarization expands the excitonic Hilbert space in real time in soft polar perovskite nanocrystals, creating new states and couplings after initial excitation.
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Silver chromate surface stability is governed by chromium-oxygen cluster coordination, with Wulff constructions revealing morphology shifts under varying silver and oxygen chemical potentials.
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Quantum Back-Action Expands the Excitonic Hilbert Space in a Soft Polar Semiconductor
Quantum back-action from collective lattice polarization expands the excitonic Hilbert space in real time in soft polar perovskite nanocrystals, creating new states and couplings after initial excitation.
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Understanding oxide surface stability: Theoretical insights from silver chromate
Silver chromate surface stability is governed by chromium-oxygen cluster coordination, with Wulff constructions revealing morphology shifts under varying silver and oxygen chemical potentials.