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Showing 1–4 of 4 results

Advanced filters: Author: Bimu Yao Clear advanced filters

Cooperative polariton dynamics in feedback-coupled cavities

Rabi oscillations of magnons typically do not have few photon control of single spin quantum systems. Here, the authors use a feedback cavity architecture to increase magnon-photon cooperativity, enabling increased control of light-matter interactions in magnonic systems via cooperative polariton dynamics.

Bimu Yao
Y. S. Gui
C. -M. Hu
ResearchOpen Access10 Nov 2017
Nature Communications

Volume: 8, P: 1-6
Enhancement of magnonic frequency combs by exceptional points

Frequency combs, which are important for applications in precision spectroscopy, depend on material nonlinearities for their function, which can be hard to engineer. Now an approach combining magnons and exceptional points is shown to be effective.

Congyi Wang
Jinwei Rao
Wei Lu
Research29 Apr 2024
Nature Physics

Volume: 20, P: 1139-1144
Interferometric control of magnon-induced nearly perfect absorption in cavity magnonics

Perfect absorption can be obtained for a single port device, or a device with multiple incident beams, but for multiport devices, the absorption is limited to around 50%. In this work, Rao et al. overcome this limitation, demonstrating near perfect absorption in a two port cavity magnon system.

J. W. Rao
P. C. Xu
C.-M. Hu
ResearchOpen Access26 Mar 2021
Nature Communications

Volume: 12, P: 1-7
Coherent control of magnon radiative damping with local photon states

Manipulating magnon radiation is fundamental for enhancing efficient information transfer and storage in spintronic devices. This paper provides an experimental demonstration of magnonics-based hybrid systems of tunable magnon radiative damping through photon coupling in a waveguide cavity.*

Bimu Yao
Tao Yu
C.-M. Hu
ResearchOpen Access13 Dec 2019
Communications Physics

Volume: 2, P: 1-8