Single hBN quantum emitters exhibit photon-energy-dependent rotation of their transition dipoles driven by phonon interactions, operating beyond the Condon approximation.
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First-principles and k·p study of strained HgTe shows linearly k-dependent higher-order C4 strain terms produce nontrivial sub-band splitting, explaining camel-back features and supporting a Weyl semimetal phase under compression.
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Transition Dipole Rotation Beyond the Condon Approximation in Single hBN Quantum Emitters
Single hBN quantum emitters exhibit photon-energy-dependent rotation of their transition dipoles driven by phonon interactions, operating beyond the Condon approximation.
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Anisotropic sub-band splitting mechanisms in strained HgTe: a first principles study
First-principles and k·p study of strained HgTe shows linearly k-dependent higher-order C4 strain terms produce nontrivial sub-band splitting, explaining camel-back features and supporting a Weyl semimetal phase under compression.