Strong Single-Photon Coupling in Superconducting Quantum Magnetomechanics

Abstract: We show that the inductive coupling between the quantum mechanical motion of a superconducting microcantilever and a flux-dependent microwave quantum circuit can attain the strong singlephoton nanomechanical coupling regime with feasible experimental parameters. We propose to use a superconducting strip, which is in the Meissner state, at the tip of a cantilever. A pick-up coil collects the flux generated by the sheet currents induced by an external quadrupole magnetic field centered at the strip location. The… Show more

“…As already mentioned, systems described by equation (1) can be physically built from very different ingredients. In qubit-mediated cavity optomechanics [25][26][27][28]34], see figure 1(b), the qubit can drastically enhance the intrinsically small radiation-pressure coupling g 0 between the mechanics and an microwave cavity. This is because a large linear coupling, created by applying a dc bias to the qubit, becomes converted into an effective parametric coupling as reviewed in the following.…”

Optomechanical measurement of a millimeter-sized mechanical oscillator approaching the quantum ground state

“…As already mentioned, systems described by equation (1) can be physically built from very different ingredients. In qubit-mediated cavity optomechanics [25][26][27][28]34], see figure 1(b), the qubit can drastically enhance the intrinsically small radiation-pressure coupling g 0 between the mechanics and an microwave cavity. This is because a large linear coupling, created by applying a dc bias to the qubit, becomes converted into an effective parametric coupling as reviewed in the following.…”

Optomechanical measurement of a millimeter-sized mechanical oscillator approaching the quantum ground state

“…This challenging idea has inspired emerging attentions from experimental field. The nonlinearity of the phonon mode of the MR originating from the strong coupling between the microcavity and the MR has been discussed based on capacitive [73] or magnetic [74] coupling in the microwave-regime optomechanical devices. By enhancing the effect of a single-photon in the optical cavity, the strong-coupling regime is reached with the auxiliary of the squeezing of a cavity mode [4].…”

Preparation of a nonlinear coherent state of the mechanical resonator in an optomechanical microcavity

“…Superconducting nanowire single-photon detectors (SNSPDs) have shown promise for applications in quantum communication and computation [1][2][3][4][5][6][7][8][9]. In particular, they have been developed because they offer the advantages of a low dark count rate (DCR), a short time jitter, broadband response, and a high repetition rate [10][11][12][13][14].…”

Dual-lens beam compression for optical coupling in superconducting nanowire single-photon detectors