A single-photon-boosted type-I fusion gate achieves 3/4 success probability with four ancillary photons, cutting resource overhead for large photonic entangled states.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Fusion failure sets a noise floor that blocks low-overhead subthreshold operation in all-linear-optics fusion-based quantum computers, but quantum-emitter-spin architectures lower this floor by orders of magnitude.
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Single-photon-boosted type-I fusion gates
A single-photon-boosted type-I fusion gate achieves 3/4 success probability with four ancillary photons, cutting resource overhead for large photonic entangled states.
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The subthreshold issue of fusion-based quantum computing
Fusion failure sets a noise floor that blocks low-overhead subthreshold operation in all-linear-optics fusion-based quantum computers, but quantum-emitter-spin architectures lower this floor by orders of magnitude.