A synthetic time-domain photonic processor achieves exponential hardware reduction for universal linear transformations and exceeds cluster-state quantum computation thresholds in benchmarks on boosted Bell state measurements.
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A review of Bell state measurement techniques in quantum optics, their fundamental limitations with linear optics, and recent progress in high-dimensional systems for quantum networks.
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Hardware-Efficient Universal Linear Transformations for Optical Modes in the Synthetic Time Dimension
A synthetic time-domain photonic processor achieves exponential hardware reduction for universal linear transformations and exceeds cluster-state quantum computation thresholds in benchmarks on boosted Bell state measurements.
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Bell state measurements in quantum optics: a review of recent progress and open challenges
A review of Bell state measurement techniques in quantum optics, their fundamental limitations with linear optics, and recent progress in high-dimensional systems for quantum networks.