Add to ORKGWe propose a superconducting circuit comprising a dc superconducting quantum interference device with a mechanically compliant arm embedded in a coplanar microwave cavity that realizes an optomechanical system with a degenerate or nondegenerate parametric interaction generated via the dynamical Casimir effect. For experimentally feasible parameters, this setup is capable of reaching the single-photon ultrastrong-coupling regime while simultaneously possessing a parametric coupling strength approaching the renormalized cavity frequency. This opens up the possibility of observing the interplay between these two fundamental nonlinearities at the single-photon level
The dynamical Casimir effect is an intriguing phenomenon in which photons are generated from vacuum ...
Cavity optomechanical systems are approaching a strong-coupling regime where the coherent dynamics o...
Cavity optomechanics represents a flexible platform for the implementation of quantum technologies, ...
We propose and analyze a circuit that implements a nonlinear coupling between two superconducting mi...
In this thesis, I present recent studies of cavity optomechanical physics using superconducting circ...
We propose a scheme involving a Cooper pair transistor (CPT) embedded in a superconducting microwave...
We theoretically investigate the dynamical Casimir effect (DCE) in electrical circuits based on supe...
We study the dynamical Casimir effect using a fully quantum-mechanical description of both the cavit...
Coupling electromagnetic waves in a cavity and mechanical vibrations via the radiation pressure of p...
Vacuum fluctuations of the electromagnetic field are a direct manifestation of quantum effects. The ...
The field of optomechanics has emerged as leading platform for achieving quantum control of macrosco...
We propose a scheme involving a Cooper pair transistor (CPT) embedded in a superconducting microwave...
We propose a scheme for controlling a radio-frequency mechanical resonator at the quantum level usin...
Microwave optomechanical circuits have been demonstrated to be powerful tools for both exploring fun...
This thesis explores the coupling of microwave cavities containing a Superconducting QUantum Interfe...
The dynamical Casimir effect is an intriguing phenomenon in which photons are generated from vacuum ...
Cavity optomechanical systems are approaching a strong-coupling regime where the coherent dynamics o...
Cavity optomechanics represents a flexible platform for the implementation of quantum technologies, ...
We propose and analyze a circuit that implements a nonlinear coupling between two superconducting mi...
In this thesis, I present recent studies of cavity optomechanical physics using superconducting circ...
We propose a scheme involving a Cooper pair transistor (CPT) embedded in a superconducting microwave...
We theoretically investigate the dynamical Casimir effect (DCE) in electrical circuits based on supe...
We study the dynamical Casimir effect using a fully quantum-mechanical description of both the cavit...
Coupling electromagnetic waves in a cavity and mechanical vibrations via the radiation pressure of p...
Vacuum fluctuations of the electromagnetic field are a direct manifestation of quantum effects. The ...
The field of optomechanics has emerged as leading platform for achieving quantum control of macrosco...
We propose a scheme involving a Cooper pair transistor (CPT) embedded in a superconducting microwave...
We propose a scheme for controlling a radio-frequency mechanical resonator at the quantum level usin...
Microwave optomechanical circuits have been demonstrated to be powerful tools for both exploring fun...
This thesis explores the coupling of microwave cavities containing a Superconducting QUantum Interfe...
The dynamical Casimir effect is an intriguing phenomenon in which photons are generated from vacuum ...
Cavity optomechanical systems are approaching a strong-coupling regime where the coherent dynamics o...
Cavity optomechanics represents a flexible platform for the implementation of quantum technologies, ...