Add to ORKGCavity magnomechanics has recently become a new platform for studying macroscopic quantum phenomena. The magnetostriction induced vibration mode of a large-size ferromagnet or ferrimagnet reaching its ground state represents a genuine macroscopic quantum state. Here we study the ground-state cooling of the mechanical vibration mode in a cavity magnomechanical system, and focus on the role of magnon squeezing in improving the cooling efficiency. The magnon squeezing is obtained by exploiting the magnon self-Kerr nonlinearity. We find that the magnon squeezing can significantly and even completely suppress the magnomechanical Stokes scattering. It thus becomes particularly useful in realizing ground-state cooling in the unresolved-sideband re...
Microwave-optics entanglement is a vital component for building hybrid quantum networks. Here, a new...
Quantum entanglement in the motion of macroscopic objects is of significance to both fundamental stu...
We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
Squeezed light finds many important applications in quantum information science and quantum metrolog...
We describe microwave cavity-magnomechanical center-of-mass cooling of a levitated magnetic sphere. ...
We present a scheme to entangle the vibrational phonon modes of two massive ferromagnetic spheres in...
The interaction between magnons and mechanical vibrations dynamically modify the properties of the m...
Cavity magnonics deals with the interaction of magnons — elementary excitations in magnetic material...
Cavity magnomechanics has become an ideal platform to explore macroscopic quantum effects. Bringing ...
Ground-state cooling ofmesoscopicmechanical resonators is a fundamental requirement for testing of q...
We show how a quantum state in a microwave cavity mode can be transferred to and stored in a phononi...
Dynamical backaction resulting from radiation pressure forces in optomechanical systems has proven t...
We show how to prepare a steady-state entangled state between magnons and optical photons in an opto...
We provide a general framework to describe cooling of a micromechanical oscillator to its quantum gr...
Microwave-optics entanglement is a vital component for building hybrid quantum networks. Here, a new...
Quantum entanglement in the motion of macroscopic objects is of significance to both fundamental stu...
We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
Squeezed light finds many important applications in quantum information science and quantum metrolog...
We describe microwave cavity-magnomechanical center-of-mass cooling of a levitated magnetic sphere. ...
We present a scheme to entangle the vibrational phonon modes of two massive ferromagnetic spheres in...
The interaction between magnons and mechanical vibrations dynamically modify the properties of the m...
Cavity magnonics deals with the interaction of magnons — elementary excitations in magnetic material...
Cavity magnomechanics has become an ideal platform to explore macroscopic quantum effects. Bringing ...
Ground-state cooling ofmesoscopicmechanical resonators is a fundamental requirement for testing of q...
We show how a quantum state in a microwave cavity mode can be transferred to and stored in a phononi...
Dynamical backaction resulting from radiation pressure forces in optomechanical systems has proven t...
We show how to prepare a steady-state entangled state between magnons and optical photons in an opto...
We provide a general framework to describe cooling of a micromechanical oscillator to its quantum gr...
Microwave-optics entanglement is a vital component for building hybrid quantum networks. Here, a new...
Quantum entanglement in the motion of macroscopic objects is of significance to both fundamental stu...
We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure...