Your search keyword '"Lingenfelter, Andrew"' showing total 5 results

1. Broadband Bandpass Purcell Filter for Circuit Quantum Electrodynamics

Author

Yan, Haoxiong, Wu, Xuntao, Lingenfelter, Andrew, Joshi, Yash J., Andersson, Gustav, Conner, Christopher R., Chou, Ming-Han, Grebel, Joel, Miller, Jacob M., Povey, Rhys G., Qiao, Hong, Clerk, Aashish A., and Cleland, Andrew N.

Subjects

Quantum Physics

Abstract

In circuit quantum electrodynamics (QED), qubits are typically measured using dispersively-coupled readout resonators. Coupling between each readout resonator and its electrical environment however reduces the qubit lifetime via the Purcell effect. Inserting a Purcell filter counters this effect while maintaining high readout fidelity, but reduces measurement bandwidth and thus limits multiplexing readout capacity. In this letter, we develop and implement a multi-stage bandpass Purcell filter that yields better qubit protection while simultaneously increasing measurement bandwidth and multiplexed capacity. We report on the experimental performance of our transmission-line--based implementation of this approach, a flexible design that can easily be integrated with current scaled-up, long coherence time superconducting quantum processors.

Published

2023

2. Surpassing spectator qubits with photonic modes and continuous measurement for Heisenberg-limited noise mitigation

Author

Lingenfelter, Andrew and Clerk, Aashish A.

Published

2023

3. Time resolved flow field measurements of orifice entrainment during a hydrodynamic ram event

Author

Lingenfelter, Andrew J., Liu, David, and Reeder, Mark F.

Published

2017

4. Benefits and limitations of field-based monitoring approaches for respirable dust and crystalline silica applied in a sandstone quarry.

Author

Cauda, Emanuele, Dolan, Eric, Cecala, Andrew, Louk, Kyle, Yekich, Milan, Chubb, Lauren, and Lingenfelter, Andrew

Subjects

DUST, INDUSTRIAL safety, CALIBRATION, OCCUPATIONAL exposure, DESCRIPTIVE statistics, SAFETY hats, MINERAL industries, INFRARED spectroscopy, SILICA

Abstract

With the advent of new sensing technologies and robust field-deployable analyzers, monitoring approaches can now generate valuable hazard information directly in the workplace. This is the case for monitoring respirable dust and respirable crystalline silica concentration levels. Estimating the quartz amount of a respirable dust sample by nondestructive analysis can be carried out using portable Fourier transform infrared spectroscopy (FTIR) units. Real-time respirable dust monitors, combined with small video cameras, allow advanced assessments using the Helmet-CAM methodology. These two field-based monitoring approaches, developed by the National Institute for Occupational Safety and Health (NIOSH), have been trialed in a sandstone quarry. Twenty-six Helmet-CAM sessions were conducted, and forty-one dust samples were collected around the quarry and analyzed on-site during two events. The generated data generated were used to characterize concentration levels for the monitored areas and workers, to identify good practices, and to illustrate activities that could be improved with additional engineered control technologies. Laboratory analysis of the collected samples complemented the field finding and provided an assessment of the performance of the field-based techniques. Only a fraction of the real-time respirable dust monitoring sessions data could be corrected with laboratory analysis. The average correction factor ratio was 5.0. Nevertheless, Helmet-CAM results provided valuable information for each session. The field-based quartz monitoring approach overestimated the concentration by a factor of 1.8, but it successfully assessed the quartz concentration trends in the quarry. The data collected could be used for the determination of a quarry calibration factor for future events. The quartz content in the dust was found to vary from 14% to 100%, and this indicates the need for multiple techniques in the characterization of respirable dust and quartz concentration and exposure. Overall, this study reports the importance of the adoption of field-based monitoring techniques when combined with a proper understanding and knowledge of the capabilities and limitations of each technique. [ABSTRACT FROM AUTHOR]

Published

2022

5. Unconditional Fock state generation using arbitrarily weak photonic nonlinearities.

Author

Lingenfelter, Andrew, Roberts, David, and Clerk, A. A.

Subjects

*QUANTUM cryptography, *DEGENERATE perturbation theory, *LINEAR energy transfer, *COHERENCE (Physics)

Abstract

The article presents a study that present a mechanism that harnesses extremely weak Kerr-type nonlinearities in a single driven cavity to deterministically generate single-photon Fock states and more general photon-blockaded states. It mentions that nonlinearities that are orders-of-magnitude smaller than photonic loss.

Published

2021