Quantum Brain
← Back to papers

Error-correcting entanglement swapping using a practical logical photon encoding

P. Hilaire, Edwin Barnes, S. Economou, F. Grosshans·January 26, 2021·DOI: 10.1103/PhysRevA.104.052623
Physics

AI Breakdown

Get a structured breakdown of this paper — what it's about, the core idea, and key takeaways for the field.

Abstract

Several emerging quantum technologies, including quantum networks, modular and fusion-based quantum computing, rely crucially on the ability to perform photonic Bell state measurements. Therefore, photon losses and the 50% success probablity upper bound of Bell state measurements pose a critical limitation to photonic quantum technologies. Here, we develop protocols that overcome these two key challenges through logical encoding of photonic qubits. Our approach uses a tree graph state logical encoding, which can be produced deterministically with a few quantum emitters, and achieves near-deterministic logical photonic Bell state measurements while also protecting against errors including photon losses, with a record loss-tolerance threshold.

Related Research

Quantum Intelligence

Ask about quantum research, companies, or market developments.