Carbon defects in TMD bilayers are computationally shown to enable room-temperature defect-mediated quantum emission at telecom wavelengths with material-dependent optical fingerprints.
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Kubo theory yields T1 and T2 from spin-lattice correlation functions; these are evaluated with ML-driven ab initio molecular dynamics and match experimental T1 values for the NV center in diamond.
citing papers explorer
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Quantum Emitters at Telecommunication Wavelengths based on Carbon Defects in Transition Metal Dichalcogenides
Carbon defects in TMD bilayers are computationally shown to enable room-temperature defect-mediated quantum emission at telecom wavelengths with material-dependent optical fingerprints.
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Spin Dynamics from Atomistic Quantum Simulations
Kubo theory yields T1 and T2 from spin-lattice correlation functions; these are evaluated with ML-driven ab initio molecular dynamics and match experimental T1 values for the NV center in diamond.