Photon correlation microscopy applied to gate-confined 1D dipolar excitons shows a transition from photon bunching to antibunching that the authors interpret as many-body blockade arising from collective dipolar repulsion.
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cond-mat.mes-hall 2years
2026 2verdicts
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Microscopic model of CT exciton interactions in TMD lateral heterostructures predicts few-meV blueshift with quadratic dipole-moment dependence for small dipoles.
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Photon correlation microscopy of quantum matter
Photon correlation microscopy applied to gate-confined 1D dipolar excitons shows a transition from photon bunching to antibunching that the authors interpret as many-body blockade arising from collective dipolar repulsion.
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Coulomb-mediated interactions of charge-transfer excitons in TMD lateral heterostructures
Microscopic model of CT exciton interactions in TMD lateral heterostructures predicts few-meV blueshift with quadratic dipole-moment dependence for small dipoles.