We formulate a scattering theory to study magnetic films in microwave cavities beyond the independent-spin and rotating-wave approximations of the Tavis-Cummings model. We demonstrate that strong coupling can be realized not only for the ferromagnetic resonance mode, but also for spin-wave resonances; the coupling strengths are mode dependent and decrease with increasing mode index. The strong-coupling regime can also be accessed electrically by spin pumping into a metal contact
A microscopic, or Hamiltonian-based, theory is outlined for studying the spin-wave instability thres...
We investigate the reflection coefficient of spin waves propagating in an ultra-thin ferromagnetic f...
Coherent coupling between spin wave excitations (magnons) and microwave photons in a cavity may disc...
We formulate a scattering theory to study magnetic films in microwave cavities beyond the independen...
Microwaves couple to magnetic moments in both ferromagnets and antiferromagnets. Although the magnon...
The interaction between two magnetic spheres in microwave cavities is studied by Mie scattering theo...
This thesis describes two types of light-matter interactions in magnetic thin films. In the first pa...
We experimentally and theoretically demonstrate that nonlinear spin-wave interactions suppress the h...
Cavity control of quantum matter may offer new ways to study and manipulate many-body systems. A par...
The spin resonance of electrons can be coupled to a microwave cavity mode to obtain a photon-magnon ...
In recent years several experimental observations and theoretical predictions of unique phenomena in...
In the last years the storage and recovery of microwave signals in a tangentially magnetized mag-net...
We predict magnon-polariton states circulating unidirectionally in a microwave cavity when loaded by...
Cavity magnonics deals with the interaction of magnons — elementary excitations in magnetic material...
We demonstrate theoretically a ∼350-fold local enhancement of the intensity of the in-plane microwav...
A microscopic, or Hamiltonian-based, theory is outlined for studying the spin-wave instability thres...
We investigate the reflection coefficient of spin waves propagating in an ultra-thin ferromagnetic f...
Coherent coupling between spin wave excitations (magnons) and microwave photons in a cavity may disc...
We formulate a scattering theory to study magnetic films in microwave cavities beyond the independen...
Microwaves couple to magnetic moments in both ferromagnets and antiferromagnets. Although the magnon...
The interaction between two magnetic spheres in microwave cavities is studied by Mie scattering theo...
This thesis describes two types of light-matter interactions in magnetic thin films. In the first pa...
We experimentally and theoretically demonstrate that nonlinear spin-wave interactions suppress the h...
Cavity control of quantum matter may offer new ways to study and manipulate many-body systems. A par...
The spin resonance of electrons can be coupled to a microwave cavity mode to obtain a photon-magnon ...
In recent years several experimental observations and theoretical predictions of unique phenomena in...
In the last years the storage and recovery of microwave signals in a tangentially magnetized mag-net...
We predict magnon-polariton states circulating unidirectionally in a microwave cavity when loaded by...
Cavity magnonics deals with the interaction of magnons — elementary excitations in magnetic material...
We demonstrate theoretically a ∼350-fold local enhancement of the intensity of the in-plane microwav...
A microscopic, or Hamiltonian-based, theory is outlined for studying the spin-wave instability thres...
We investigate the reflection coefficient of spin waves propagating in an ultra-thin ferromagnetic f...
Coherent coupling between spin wave excitations (magnons) and microwave photons in a cavity may disc...