Tunable Anisotropic Quantum Rabi Model via a Magnon–Spin-Qubit Ensemble

Abstract

The ongoing rapid progress towards quantum technologies relies on and strives for new hybrid platforms optimized for specific quantum computation and communication tasks. We theoretically study a spin qubit exchange-coupled to an anisotropic ferromagnet that hosts magnons with a controllable degree of intrinsic squeezing. We find this system to physically realize the quantum Rabi model from isotropic to the Jaynes-Cummings limit with coupling strengths that can foray into the deep-strong regime. We demonstrate that the composite nature of the squeezed-magnon enables concurrent excitation of 3 spin qubits coupled to the same magnet. Thus, 3-qubit GreenbergerHorne-Zeilinger and related states needed for implementing Shor’s quantum error correction code can be robustly generated. Our analysis highlights some unique advantages offered by this hybrid platform and hopes to motivate corresponding experimental efforts.