A two-pass optimization framework with polynomial-based simulation discovers heralded ballistic circuits for 3-5 qubit graph states achieving up to 7.5x higher success probabilities than fusion baselines, including first known circuits for some 5-qubit states.
Boosted fusion gates above the percolation threshold for scalable graph-state generation,
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
-
Automated discovery of heralded ballistic graph state generators for fusion-based photonic quantum computation
A two-pass optimization framework with polynomial-based simulation discovers heralded ballistic circuits for 3-5 qubit graph states achieving up to 7.5x higher success probabilities than fusion baselines, including first known circuits for some 5-qubit states.
-
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.