A Python library simulates NV center spin dynamics in diamond with a non-perturbative time-dependent Hamiltonian model that includes realistic pulse constraints and optical initialization/readout to predict fluorescence observables.
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The paper overviews prominent SiC defects for spin-photon interfaces and models a memory-enhanced quantum communication protocol to extract parameters needed to outperform direct point-to-point links.
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Digital Twin Simulations Toolbox of the Nitrogen-Vacancy Center in Diamond
A Python library simulates NV center spin dynamics in diamond with a non-perturbative time-dependent Hamiltonian model that includes realistic pulse constraints and optical initialization/readout to predict fluorescence observables.
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Quantum communication networks with defects in silicon carbide
The paper overviews prominent SiC defects for spin-photon interfaces and models a memory-enhanced quantum communication protocol to extract parameters needed to outperform direct point-to-point links.