A protocol is proposed to prepare magnonic GKP states in a hybrid magnon-qubit system via cavity-mediated conditional displacements, enabling logical gates for fault-tolerant quantum computation.
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5 Pith papers cite this work. Polarity classification is still indexing.
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Two-frequency modulation of cavity resonance produces qualitatively new features in magnon-polariton spectra compared to single-frequency drives.
Experimental demonstration of universal qudit control on a cavity oscillator via compiled Jaynes-Cummings gates with a transmon ancilla, reaching 96% mean post-selected process fidelity for qutrit gates.
Magnetic domain walls are positioned as a platform for scalable quantum computation architectures leveraging their quantum effects and mobility.