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Single-photon-boosted type-I fusion gates

Published 28 Mar 2026 in quant-ph | (2603.27315v1)

Abstract: Fusion measurements are a key primitive for linear-optical quantum computing and quantum networks. Type-I and type-II fusion gates are widely used to combine small entangled resource states into larger photonic states, but without ancillary resources their success probability is limited to $1/2$. Existing $3/4$-efficient type-I schemes rely on entangled Bell-pair ancillary states, whose preparation is itself probabilistic and resource-intensive. Here we propose a boosted type-I fusion gate that achieves a total success probability of $3/4$ using only four ancillary single photons and passive linear optics. The gate succeeds directly with probability $5/8$, while a distillation step converts partially entangled outcomes into additional successful events. We quantify the practical advantage of this scheme by estimating the photonic resources required for generating representative large entangled photonic states and show that the proposed gate significantly reduces the required overhead. These results expand the set of resource-efficient linear-optical primitives and enable a substantial reduction in the resource requirements for scalable photonic quantum computing and quantum communication.

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