Related papers: Tuneable and weakly-invasive probing of a superconducting resonator based onelectromagnetically induced transparency

Tuneable and weakly-invasive probing of a superconducting resonator based onelectromagnetically induced transparency

URL: http://arxiv.org/abs/2005.01975v4
Date: Mon, 30 Nov 2020 05:26:42 GMT
Title: Tuneable and weakly-invasive probing of a superconducting resonator based onelectromagnetically induced transparency
Authors: Byoung-moo Ann, Gary A. Steele
Abstract summary: We propose and demonstrate a spectroscopic probe of high-Q resonators based on electromagnetically-induced transparency (EIT) between the resonator and qubit. We observe an interference dip originated from EIT in the qubit spectroscopy, originating from the quantum interference between the qubit probe signal and sideband transition. Working in a previously unexplored regime in which the qubit has a larger linewidth than the resonator reduces the technical challenge of making a high-coherence qubit.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Superconducting cavities with high quality factors play an essential role in circuit quantum electrodynamics and quantum computing. In measurements of the the intrinsic loss rates of high frequency modes, it can be challenging to design an appropriate coupling to the measurement circuit in such a way that the resulting signal is sufficiently strong but also that this coupling does not lead to unwanted loading circuit, obscuring the intrinsic internal loss rates. Here, we propose and demonstrate a spectroscopic probe of high-Q resonators based on the phenomena of electromagnetically-induced transparency (EIT) between the resonator and qubit in the weak dispersive coupling regime. Applying a sideband drive signal to the qubit, we observe an interference dip originated from EIT in the qubit spectroscopy, originating from the quantum interference between the qubit probe signal and sideband transition. From the width and the depth of the dip, we are able to extract the single-photon linewidth of the resonator from an analytical model. Working in a previously unexplored regime in which the qubit has a larger linewidth than the resonator reduces the technical challenge of making a high-coherence qubit and is advantageous for remaining in the weakly-invasive limit of coupling to the resonator. Furthermore, the sideband and the dispersive coupling between the resonator and the qubit can be tuned $in~situ$ controlling the strength of the sideband drive power. This $in-situ$ tuneability allows the technique to be applied for efficient measurement of the resonator loss rate for any quality factor below a fixed upper bound, on the order of $10^8$ for our device, allowing a wide range of quality factors to probed using a single design.

Related papers

Enhancing Dispersive Readout of Superconducting Qubits Through Dynamic Control of the Dispersive Shift: Experiment and Theory [47.00474212574662]
A superconducting qubit is coupled to a large-bandwidth readout resonator. We show a beyond-state-of-the-art two-state-readout error of only 0.25,%$ in 100 ns integration time. The presented results are expected to further boost the performance of new and existing algorithms and protocols.
arXiv Detail & Related papers (2023-07-15T10:30:10Z)
Strong dispersive coupling between a mechanical resonator and a fluxonium superconducting qubit [1.3828553628764202]
We extend the reach of circuit quantum acousto-dynamics experiments into a new range of frequencies. We have engineered a qubit-phonon coupling rate of $gapprox2pitimes14textMHz$, and achieved a dispersive interaction that exceeds the decoherence rates of both systems. Our results demonstrate the potential for fluxonium-based hybrid quantum systems, and a path for developing new quantum sensing and information processing schemes with phonons at frequencies below 700 MHz.
arXiv Detail & Related papers (2023-04-26T14:33:39Z)
Longitudinal coupling between a Si/SiGe quantum dot and an off-chip TiN resonator [0.20742830443146304]
We report measurements of a double-quantum-dot charge qubit coupled to a high-impedance resonator via a "flip-chip" design geometry. We unequivocally confirm the presence of a longitudinal coupling between the qubit and cavity, while the qubit remains in its ground state.
arXiv Detail & Related papers (2022-12-06T04:00:15Z)
Theory of strong down-conversion in multi-mode cavity and circuit QED [0.0]
We revisit the superstrong coupling regime of multi-mode cavity quantum electrodynamics. A novel prediction is made that the cavity's linear spectrum can acquire an intricate fine structure associated with the qubit-induced cascades of coherent single-photon down-conversion processes.
arXiv Detail & Related papers (2022-10-26T12:59:30Z)
Probing the symmetry breaking of a light--matter system by an ancillary qubit [50.591267188664666]
Hybrid quantum systems in the ultrastrong, and even more in the deep-strong, coupling regimes can exhibit exotic physical phenomena. We experimentally observe the parity symmetry breaking of an ancillary Xmon artificial atom induced by the field of a lumped-element superconducting resonator. This result opens a way to experimentally explore the novel quantum-vacuum effects emerging in the deep-strong coupling regime.
arXiv Detail & Related papers (2022-09-13T06:14:08Z)
Enhancing the Coherence of Superconducting Quantum Bits with Electric Fields [62.997667081978825]
We show that qubit coherence can be improved by tuning defects away from the qubit resonance using an applied DC-electric field. We also discuss how local gate electrodes can be implemented in superconducting quantum processors to enable simultaneous in-situ coherence optimization of individual qubits.
arXiv Detail & Related papers (2022-08-02T16:18:30Z)
Quarter-wave Resonator Based Tunable Coupler for Xmon Qubits [14.108787376578453]
Scheme is based on quarter-wave resonator for scalable quantum integrated circuits. dc-Current applied through the flux bias line could change the magnetic flux inside the dc-SQUID. dc-SQUID is about 5 millimeters away from the Xmon qubits and only needs a small current on the flux bias line.
arXiv Detail & Related papers (2022-02-23T16:15:20Z)
Superconducting coupler with exponentially large on-off ratio [68.8204255655161]
Tunable two-qubit couplers offer an avenue to mitigate errors in multiqubit superconducting quantum processors. Most couplers operate in a narrow frequency band and target specific couplings, such as the spurious $ZZ$ interaction. We introduce a superconducting coupler that alleviates these limitations by suppressing all two-qubit interactions with an exponentially large on-off ratio.
arXiv Detail & Related papers (2021-07-21T03:03:13Z)
Transmission spectra of the driven, dissipative Rabi model in the USC regime [0.0]
We present theoretical transmission spectra of a strongly driven, damped, flux qubit coupled to a dissipative resonator. Such a qubit-oscillator system constitutes the building block of superconducting circuit QED platforms.
arXiv Detail & Related papers (2021-04-29T16:58:52Z)
Tuning the mode-splitting of a semiconductor microcavity with uniaxial stress [49.212762955720706]
In this work we use an open microcavity composed of a "bottom" semiconductor distributed Bragg reflector (DBR) incorporating an n-i-p heterostructure. We demonstrate a reversible in-situ technique to tune the mode-splitting by applying uniaxial stress to the semiconductor DBR. A thorough study of the mode-splitting and its tuning across the stop-band leads to a quantitative understanding of the mechanism behind the results.
arXiv Detail & Related papers (2021-02-18T13:38:32Z)
Switching dynamics of single and coupled VO2-based oscillators as elements of neural networks [55.41644538483948]
We report on the switching dynamics of both single and coupled VO2-based oscillators, with resistive and capacitive coupling, and explore the capability of their application in neural networks. For the resistive coupling, it is shown that synchronization takes place at a certain value of the coupling resistance, though it is unstable and a synchronization failure occurs periodically. For the capacitive coupling, two synchronization modes, with weak and strong coupling, are found. The transition between these modes is accompanied by chaotic oscillations.
arXiv Detail & Related papers (2020-01-07T02:16:04Z)

This list is automatically generated from the titles and abstracts of the papers in this site.