Deterministic generation of shaped single microwave photons using a parametrically driven coupler

Jiaying Yang; Axel Eriksson; Aamir Ali; Ingrid Strandberg; Claudia Castillo-Moreno; Daniel Perez Lozano; Per Persson; Simone Gasparinetti

doi:10.1103/PhysRevApplied.20.054018

Deterministic generation of shaped single microwave photons using a parametrically driven coupler
Journal article, 2023

A distributed quantum computing system requires a quantum communication channel between spatially separated processing units. In superconducting circuits, such a channel can be realized by using propagating microwave photons to encode and transfer quantum information between an emitter and a receiver node. Here we experimentally demonstrate a superconducting circuit that deterministically transfers the state of a data qubit into a propagating microwave mode, with a process fidelity of 94.5%. We use a time-varying parametric drive to shape the temporal profile of the propagating mode to be time symmetric and with constant phase, so that reabsorption by the receiving processor can be implemented as a time-reversed version of the emission. We demonstrate a self-calibrating routine to correct for time-dependent shifts of the emitted frequencies due to the modulation of the parametric drive. Our work provides a reliable method to implement high-fidelity quantum state transfer and remote entanglement operations in a distributed quantum computing network.