Detecting Errors in a Quantum Network with Pauli Checks

We apply the quantum error detection scheme Pauli check sandwiching (PCS) to quantum networks by turning it into a distributed multiparty protocol. PCS is a distance 1 code and requires less resource overhead than standard quantum error correction and detection methods. We provide analytical equations for the final fidelity and postselection rate. We also introduce a recursive version of PCS for entanglement purification that only scales polynomially in the resources required as a function of the number of recursions. The recursive PCS scheme generates a family of distance 2 quantum codes. Our analytical results are benchmarked against BBPSSW in comparable scenarios. We also perform simulations with noisy gates for entanglement swapping and attain substantial fidelity improvements. Lastly, we discuss various setups and graph state properties of PCS.