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18 results on '"Curry, M. J."'

1. Single-Shot Readout Performance of Two Heterojunction-Bipolar-Transistor Amplification Circuits at Millikelvin Temperatures

Author

Curry, M. J., Rudolph, M., England, T. D., Mounce, A. M., Jock, R. M., Bureau-Oxton, C., Harvey-Collard, P., Sharma, P. A., Anderson, J. M., Campbell, D. M., Wendt, J. R., Ward, D. R., Carr, S. M., Lilly, M. P., and Carroll, M. S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

High-fidelity single-shot readout of spin qubits requires distinguishing states much faster than the T1 time of the spin state. One approach to improving readout fidelity and bandwidth (BW) is cryogenic amplification, where the signal from the qubit is amplified before noise sources are introduced and room-temperature amplifiers can operate at lower gain and higher BW. We compare the performance of two cryogenic amplification circuits: a current-biased heterojunction bipolar transistor circuit (CB-HBT), and an AC-coupled HBT circuit (AC-HBT). Both circuits are mounted on the mixing-chamber stage of a dilution refrigerator and are connected to silicon metal oxide semiconductor (Si-MOS) quantum dot devices on a printed circuit board (PCB). The power dissipated by the CB-HBT ranges from 0.1 to 1 {\mu}W whereas the power of the AC-HBT ranges from 1 to 20 {\mu}W. Referred to the input, the noise spectral density is low for both circuits, in the 15 to 30 fA/$\sqrt{\textrm{Hz}}$ range. The charge sensitivity for the CB-HBT and AC-HBT is 330 {\mu}e/$\sqrt{\textrm{Hz}}$ and 400 {\mu}e/$\sqrt{\textrm{Hz}}$, respectively. For the single-shot readout performed, less than 10 {\mu}s is required for both circuits to achieve bit error rates below $10^{-3}$, which is a putative threshold for quantum error correction., Comment: 11 pages, 13 figures

Published
2019

2. Cryogenic preamplification of a single-electron-transistor using a silicon-germanium heterojunction-bipolar-transistor

Author

Curry, M. J., England, T. D., Bishop, N. C., Ten-Eyck, G., Wendt, J. R., Pluym, T., Lilly, M. P., Carr, S. M., and Carroll, M. S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We examine a silicon-germanium heterojunction bipolar transistor (HBT) for cryogenic pre-amplification of a single electron transistor (SET). The SET current modulates the base current of the HBT directly. The HBT-SET circuit is immersed in liquid helium, and its frequency response from low frequency to several MHz is measured. The current gain and the noise spectrum with the HBT result in a signal-to-noise-ratio (SNR) that is a factor of 10-100 larger than without the HBT at lower frequencies. The transition frequency defined by SNR = 1 has been extended by as much as a factor of 10 compared to without the HBT amplification. The power dissipated by the HBT cryogenic pre-amplifier is approximately 5 nW to 5 {\mu}W for the investigated range of operation. The circuit is also operated in a single electron charge read-out configuration in the time-domain as a proof-of-principle demonstration of the amplification approach for single spin read-out., Comment: Reprinted with permission from M. J. Curry, et alii. Copyright 2015, AIP Publishing LLC. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the AIP Publishing LLC. 5 pages, 4 figures

Published
2015
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4. Single-Shot Readout Performance of Two Heterojunction-Bipolar-Transistor Amplification Circuits at Millikelvin Temperatures

Author

Curry, M. J., primary, Rudolph, M., additional, England, T. D., additional, Mounce, A. M., additional, Jock, R. M., additional, Bureau-Oxton, C., additional, Harvey-Collard, P., additional, Sharma, P. A., additional, Anderson, J. M., additional, Campbell, D. M., additional, Wendt, J. R., additional, Ward, D. R., additional, Carr, S. M., additional, Lilly, M. P., additional, and Carroll, M. S., additional

Published
2019
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5. Quantum dots with split enhancement gate tunnel barrier control

Author

Rochette, S., primary, Rudolph, M., additional, Roy, A.-M., additional, Curry, M. J., additional, Eyck, G. A. Ten, additional, Manginell, R. P., additional, Wendt, J. R., additional, Pluym, T., additional, Carr, S. M., additional, Ward, D. R., additional, Lilly, M. P., additional, Carroll, M. S., additional, and Pioro-Ladrière, M., additional

Published
2019
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12. Microbarographic Observation of Acoustic Gravity Waves

Author

MURTY, R. C. and CURRY, M. J.

Abstract

IT is generally believed that some ionospheric disturbances may be partly caused by the acoustic gravity waves travelling upwards from the troposphere1,2. Wave periods of 5 min to more than 1 h and a narrow spectral band at periods of 7–12 min with a nearly sinusoidal character have been observed2,3. Gossard2discussed various mechanisms of generation of acoustic gravity waves, but the part that convective storms play in this process is not clear. Pierce and Coroniti4, emphasizing the circumstantial nature of the evidence on which their proposition was based, proposed that air rising rapidly within a thunderstorm cell overshoots the equilibrium height and is pulled back, resulting in oscillations of the air with a period nearly the same as the local Brunt period. These oscillations occur near the cloudtop levels and generate acoustic gravity waves. They also suggested that, although these waves would be strongly attenuated as they propagated downwards, even at ground level they are significant enough to be detected by microbarographs. The wave oscillations may, however, be obscured by the fluctuations in pressure caused by turbulence created by the formation of the thunderstorm. Fullerton5states that previous studies strongly indicate that sinusoidal pressure variations recorded at the ground are due to tropospheric gravity waves.

Published
1969
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13. Capstone Journal of Education.

Author

Curry, M. J.

Subjects
EDUCATIONAL law & legislation
Abstract

An excerpt from the article "A Summary of Three Areas of School Law: Students' Rights, Torts and Teachers' Rights," by M. J. Curry is presented.

Published
1983

15. The spinal input to the posterior group in the cat. An electrophysiological investigation.

Author

Curry MJ and Gordon G

Subjects
Acoustic Stimulation, Action Potentials, Animals, Cats, Electric Stimulation, Evoked Potentials, Geniculate Bodies physiology, Nerve Degeneration, Neural Pathways, Photic Stimulation, Spinal Cord anatomy & histology, Spinothalamic Tracts physiology, Thalamic Nuclei anatomy & histology, Spinal Cord physiology, Thalamic Nuclei physiology
Published
1972

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