Fidelity of graph states under IID Pauli noise maps to a classical spin partition function, revealing dimension- and degree-dependent phase transitions that determine noise robustness.
and Ra, Y.-S., Gen- eration of three-dimensional cluster entangled state, Preprint at https://arxiv.org/abs/2309.05437 (2023)
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Experimental determination of amplification and noise matrices for multimode nonlinear-optical processes, enabling factorization and eigenquadrature identification for processes like parametric downconversion.
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Phase Transitions and Noise Robustness of Quantum Graph States
Fidelity of graph states under IID Pauli noise maps to a classical spin partition function, revealing dimension- and degree-dependent phase transitions that determine noise robustness.
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Completely characterizing multimode nonlinear-optical quantum processes
Experimental determination of amplification and noise matrices for multimode nonlinear-optical processes, enabling factorization and eigenquadrature identification for processes like parametric downconversion.