YM Liu, J Cheng, HF Wang, X Yi - Optics Express, 2023 - opg.optica.org
A scheme is presented to achieve quantum nonreciprocity by manipulating the statistical properties of the photons in a composite device consisting of a double-cavity …
We experimentally demonstrate the nonreciprocal microwave amplification using a cavity magnonic system, consisting of a passive cavity (ie, the split-ring resonator), an active …
Y Qin, SC Li, K Li, JJ Song - Physical Review B, 2022 - APS
We propose a theoretical model to study the quantum phase transition in a double-cavity magnonic system. We find that the system exhibits a second-order phase transition from a …
K Ma, C Li, Z Hao, CK Ong, G Chai - Physical Review B, 2023 - APS
We investigate the magnon-magnon coupling between the ferromagnetic resonances (FMRs) from different ferromagnetic layers in Co 90 Zr 10 (100 nm)/Ta/Fe 20 Ni 80 (100 nm) …
WJ Wu, D Xu, J Qian, J Li, YP Wang, JQ You - Chinese Physics B, 2022 - iopscience.iop.org
When there is a certain amount of field inhomogeneity, the biased ferrimagnetic crystal can exhibit the higher-order magnetostatic (HMS) mode in addition to the uniform-precession …
Nonlinear interactions between optical fields and magnetic modes in cavity magnonics constitute a rich source of various nontrivial effects in optics and quantum information …
C Zhang, Z Hao, Y Shi, C Jiang, CK Ong… - arXiv preprint arXiv …, 2023 - arxiv.org
We observe a nonreciprocal ultrastrong magnon-photon coupling in the bandgap of photonic crystals by introducing a single crystal YIG cylinder into copper photonic crystals …