The interaction between two magnetic spheres in microwave cavities is studied by Mie
scattering theory beyond the magnetostatic and rotating wave approximations. We …

The spin resonance of electrons can be coupled to a microwave cavity mode to obtain a
photon-magnon hybrid system. These quantum systems are widely studied for both …

We apply Mie scattering theory to study the interaction of magnetic spheres with microwaves
in cavities beyond the magnetostatic and rotating wave approximations. We demonstrate …

We analyze the interaction of a nanomagnet (ferromagnetic) with a single photonic mode of
a cavity in a fully quantum-mechanical treatment and find that exceptionally large quantum …

Hybridizing collective spin excitations and a cavity with high cooperativity provides a new
research subject in the field of cavity quantum electrodynamics and can also have potential …

We describe microwave cavity-magnomechanical center-of-mass cooling of a levitated
magnetic sphere. The standing magnetic component of the electromagnetic wave within a …

The ability to achieve strong-coupling has made cavity-magnon systems an exciting platform
for the development of hybrid quantum systems and the investigation of fundamental …

We demonstrate the dispersive measurement of ferromagnetic resonance in a yttrium iron
garnet sphere embedded within a microwave cavity. The reduction in the longitudinal …

We realize a cavity magnon-microwave photon system in which a magnetic dipole
interaction mediates strong coupling between the collective motion of a large number of …

We experimentally implement a system of cavity optomagnonics, where a sphere of
ferromagnetic material supports whispering gallery modes (WGMs) for photons and the …