Theory of the Magnon Parametron
- URL: http://arxiv.org/abs/2109.09117v1
- Date: Sun, 19 Sep 2021 12:59:13 GMT
- Title: Theory of the Magnon Parametron
- Authors: Mehrdad Elyasi, Eiji Saitoh, Gerrit E. W. Bauer
- Abstract summary: We calculate the dynamics of the magnon parametron as a function of microwave power, applied magnetic field and temperature.
We predict three dynamical phases, viz. a stable Ising spin, telegraph noise of thermally activated switching, and an intermediate regime that at lower temperatures is quantum correlated with significant distillible magnon entanglement.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The 'magnon parametron' is a ferromagnetic particle that is parametrically
excited by microwaves in a cavity. Above a certain threshold of the microwave
power, a bistable steady state emerges that forms an effective Ising spin. We
calculate the dynamics of the magnon parametron as a function of microwave
power, applied magnetic field and temperature for the interacting magnon
system, taking into account thermal and quantum fluctuations. We predict three
dynamical phases, viz. a stable Ising spin, telegraph noise of thermally
activated switching, and an intermediate regime that at lower temperatures is
quantum correlated with significant distillible magnon entanglement. These
three regimes of operation are attractive for alternative computing schemes.
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