Add to ORKGThe interaction between magnons and mechanical vibrations dynamically modify the properties of the mechanical oscillator, such as its frequency and decay rate. Known as dynamical backaction, this effect is the basis for many theoretical protocols, such as entanglement generation or mechanical ground-state cooling. However, dynamical backaction is also detrimental for specific applications. Here, we demonstrate the implementation of a cavity magnomechanical measurement that fully evades dynamical backaction effects. Through careful engineering, the magnomechanical scattering rate into the hybrid magnon-photon modes can be precisely matched, eliminating dynamical backaction damping. Backaction evasion is confirmed via the measurement of a dri...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Motivated by entanglement protection, our work utilizes a resonance effect to enhance optomechanical...
Dynamical backaction resulting from radiation pressure forces in optomechanical systems has proven t...
Cavity magnomechanics has recently become a new platform for studying macroscopic quantum phenomena....
Cavity magnomechanics has become an ideal platform to explore macroscopic quantum effects. Bringing ...
We show how to prepare a steady-state entangled state between magnons and optical photons in an opto...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
Conventional techniques for laser cooling, by coherent scattering off of internal states or through ...
We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superc...
We review a scheme for performing a backaction-evading measurement of one mechanical quadrature in a...
Standard Quantum Limit (SQL) of a classical mechanical force detection results from quantum back act...
We analyze dynamic optomechanical back-action effects in signal-recycled Michelson and Michelson-Sag...
Squeezed light finds many important applications in quantum information science and quantum metrolog...
We propose an experimentally realizable nonreciprocal magnonic device at the single-magnon level by ...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Motivated by entanglement protection, our work utilizes a resonance effect to enhance optomechanical...
Dynamical backaction resulting from radiation pressure forces in optomechanical systems has proven t...
Cavity magnomechanics has recently become a new platform for studying macroscopic quantum phenomena....
Cavity magnomechanics has become an ideal platform to explore macroscopic quantum effects. Bringing ...
We show how to prepare a steady-state entangled state between magnons and optical photons in an opto...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
Conventional techniques for laser cooling, by coherent scattering off of internal states or through ...
We measure the response and thermal motion of a high-Q nanomechanical oscillator coupled to a superc...
We review a scheme for performing a backaction-evading measurement of one mechanical quadrature in a...
Standard Quantum Limit (SQL) of a classical mechanical force detection results from quantum back act...
We analyze dynamic optomechanical back-action effects in signal-recycled Michelson and Michelson-Sag...
Squeezed light finds many important applications in quantum information science and quantum metrolog...
We propose an experimentally realizable nonreciprocal magnonic device at the single-magnon level by ...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Optomechanical detectors have reached the standard quantum limit in position and force sensing where...
Motivated by entanglement protection, our work utilizes a resonance effect to enhance optomechanical...