Large-scale fault-tolerant superconducting quantum computation needs rapid quantum communication to network qubits fabricated on different chips and long-range couplers to implement efficient quantum error-correction codes. Quantum channels used for these purposes are best modeled by multimode resonators, which lie between single-mode cavities and waveguides with a continuum of modes. In this Letter, we propose a non-Markovian formalism for quantum state transfer using coupling strengths comparable to the channel's free spectral range (g∼\fsr). Our scheme merges features of both the STIRAP-based methods for single-mode cavities and the pitch-and-catch protocol for long waveguides, integrating their advantage of low loss and high speed. It is immune to thermal channel occupations if using harmonic resonators for the sender and receiver.
@article{arxiv.2407.00683,
title = {Quantum State Transfer via a Multimode Resonator},
author = {Yang He and Yu-Xiang Zhang},
journal= {arXiv preprint arXiv:2407.00683},
year = {2025}
}
Comments
6 pages, 3 figures, and 5 pages of supplemental material