Your search keyword '"Jerry M. Chow"' showing total 7 results

1. Multi-path interferometric Josephson directional amplifier for qubit readout

Author

Salvatore Bernardo Olivadese, Baleegh Abdo, Jerry M. Chow, Oblesh Jinka, Markus Brink, and Nicholas T. Bronn

Subjects

Physics - Instrumentation and Detectors, Physics and Astronomy (miscellaneous), Preamplifier, Materials Science (miscellaneous), Measure (physics), FOS: Physical sciences, 02 engineering and technology, 01 natural sciences, law.invention, Superconductivity (cond-mat.supr-con), Printed circuit board, Optics, law, 0103 physical sciences, Figure of merit, Electrical and Electronic Engineering, 010306 general physics, Faraday cage, Physics, Quantum Physics, business.industry, Condensed Matter - Superconductivity, Amplifier, Instrumentation and Detectors (physics.ins-det), 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Interferometry, Qubit, Quantum Physics (quant-ph), 0210 nano-technology, business

Abstract

We realize and characterize a quantum-limited, directional Josephson amplifier suitable for qubit readout. The device consists of two nondegenerate, three-wave-mixing amplifiers that are coupled together in an interferometric scheme, embedded in a printed circuit board. Nonreciprocity is generated by applying a phase gradient between the same-frequency pumps feeding the device, which plays the role of the magnetic field in a Faraday medium. Directional amplification and reflection-gain elimination are induced via wave interference between multiple paths in the system. We measure and discuss the main figures of merit of the device and show that the experimental results are in good agreement with theory. An improved version of this directional amplifier is expected to eliminate the need for bulky, off-chip isolation stages that generally separate quantum systems and preamplifiers in high-fidelity, quantum-nondemolition measurement setups.

Published

2018

2. Quantum optimization using variational algorithms on near-term quantum devices.

Author

Nikolaj Moll, Panagiotis Barkoutsos, Lev S Bishop, Jerry M Chow, Andrew Cross, Daniel J Egger, Stefan Filipp, Andreas Fuhrer, Jay M Gambetta, Marc Ganzhorn, Abhinav Kandala, Antonio Mezzacapo, Peter Müller, Walter Riess, Gian Salis, John Smolin, Ivano Tavernelli, and Kristan Temme

Published

2018

3. Multi-path interferometric Josephson directional amplifier for qubit readout.

Author

Baleegh Abdo, Nicholas T Bronn, Oblesh Jinka, Salvatore Olivadese, Markus Brink, and Jerry M Chow

Published

2018

4. High coherence plane breaking packaging for superconducting qubits.

Author

Nicholas T Bronn, Vivekananda P Adiga, Salvatore B Olivadese, Xian Wu, Jerry M Chow, and David P Pappas

Published

2018

5. Bulk and surface loss in superconducting transmon qubits.

Author

Oliver Dial, Douglas T McClure, Stefano Poletto, G A Keefe, Mary Beth Rothwell, Jay M Gambetta, David W Abraham, Jerry M Chow, and Matthias Steffen

Subjects

QUBITS, SUPERCONDUCTORS, DECOHERENCE (Quantum mechanics), SAPPHIRES, SURFACE recombination

Abstract

Decoherence of superconducting transmon qubits is purported to be consistent with surface loss from two-level systems on the substrate surface. Here, we present a study of surface loss in transmon devices, explicitly designed to have varying sensitivities to different surface loss contributors. Our experiments also encompass two particular different sapphire substrates, which reveal the onset of a yet unknown additional loss mechanism outside of surface loss for one of the substrates. Tests across different wafers and devices demonstrate substantial variation, and we emphasize the importance of testing large numbers of devices for disentangling different sources of decoherence. [ABSTRACT FROM AUTHOR]

Published

2016

6. Demonstration of robust quantum gate tomography via randomized benchmarking.

Author

Blake R Johnson, Marcus P da Silva, Colm A Ryan, Shelby Kimmel, Jerry M Chow, and Thomas A Ohki

Subjects

QUANTUM gates, SELF-consistent field theory, OPTICAL tomography

Abstract

Typical quantum gate tomography protocols struggle with a self-consistency problem: the gate operation cannot be reconstructed without knowledge of the initial state and final measurement, but such knowledge cannot be obtained without well-characterized gates. A recently proposed technique, known as randomized benchmarking tomography (RBT), sidesteps this self-consistency problem by designing experiments to be insensitive to preparation and measurement imperfections. We implement this proposal in a superconducting qubit system, using a number of experimental improvements including implementing each of the elements of the Clifford group in single ‘atomic’ pulses and custom control hardware to enable large overhead protocols. We show a robust reconstruction of several single-qubit quantum gates, including a unitary outside the Clifford group. We demonstrate that RBT yields physical gate reconstructions that are consistent with fidelities obtained by RB. [ABSTRACT FROM AUTHOR]

Published

2015

7. Microwave-activated conditional-phase gate for superconducting qubits

Author

Jerry M Chow, Jay M Gambetta, Andrew W Cross, Seth T Merkel, Chad Rigetti, and M Steffen

Subjects

Science, Physics, QC1-999

Abstract

We introduce a new entangling gate between two fixed-frequency qubits statically coupled via a microwave resonator bus which combines the following desirable qualities: all-microwave control, appreciable qubit separation for reduction of crosstalk and leakage errors and the ability to function as a two-qubit conditional-phase gate. A fixed, always-on interaction is explicitly designed between higher energy (non-computational) states of two transmon qubits, and then a conditional-phase gate is ‘activated’ on the otherwise unperturbed qubit subspace via a microwave drive. We implement this microwave-activated conditional-phase gate with a fidelity from quantum process tomography of ∼ 87%.

Published

2013