Search Results - "Thorbeck, T."

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  1. 1
    Measurement of a superconducting qubit with a microwave photon counter

    Measurement of a superconducting qubit with a microwave photon counter by Opremcak, A, Pechenezhskiy, I V, Howington, C, Christensen, B G, Beck, M A, Leonard, Jr, E, Suttle, J, Wilen, C, Nesterov, K N, Ribeill, G J, Thorbeck, T, Schlenker, F, Vavilov, M G, Plourde, B L T, McDermott, R

    “…Fast, high-fidelity measurement is a key ingredient for quantum error correction. Conventional approaches to the measurement of superconducting qubits,…”
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  2. 2
    High fidelity qubit readout with the superconducting low-inductance undulatory galvanometer microwave amplifier

    High fidelity qubit readout with the superconducting low-inductance undulatory galvanometer microwave amplifier by Hover, D., Zhu, S., Thorbeck, T., Ribeill, G. J., Sank, D., Kelly, J., Barends, R., Martinis, John M., McDermott, R.

    Published in Applied physics letters (14-04-2014)
    “…We describe the high fidelity dispersive measurement of a superconducting qubit using a microwave amplifier based on the Superconducting Low-inductance…”
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  3. 3
    Simulating Capacitances to Silicon Quantum Dots: Breakdown of the Parallel Plate Capacitor Model

    Simulating Capacitances to Silicon Quantum Dots: Breakdown of the Parallel Plate Capacitor Model by Thorbeck, T., Fujiwara, A., Zimmerman, N. M.

    Published in IEEE transactions on nanotechnology (01-09-2012)
    “…Many electrical applications of quantum dots rely on capacitively coupled gates; therefore, to make reliable devices we need those gate capacitances to be…”
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  4. 4
    Reverse isolation and backaction of the SLUG microwave amplifier

    Reverse isolation and backaction of the SLUG microwave amplifier by Thorbeck, T, Zhu, S, LeonardJr, E, Barends, R, Kelly, J, Martinis, John M, McDermott, R

    Published 04-05-2017
    “…Phys. Rev. Applied 8, 054007 (2017) An ideal preamplifier for qubit measurement must not only provide high gain and near quantum-limited noise performance, but…”
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  5. 5
    Measurement of a Superconducting Qubit with a Microwave Photon Counter

    Measurement of a Superconducting Qubit with a Microwave Photon Counter by Opremcak, A, Pechenezhskiy, I. V, Howington, C, Christensen, B. G, Beck, M. A, LeonardJr, E, Suttle, J, Wilen, C, Nesterov, K. N, Ribeill, G. J, Thorbeck, T, Schlenker, F, Vavilov, M. G, Plourde, B. L. T, McDermott, R

    Published 02-03-2018
    “…Fast, high-fidelity measurement is a key ingredient for quantum error correction. Conventional approaches to the measurement of superconducting qubits,…”
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  6. 6
    Location and cause of surface potential fluctuations in an SOI nanowire

    Location and cause of surface potential fluctuations in an SOI nanowire by Thorbeck, T., Zimmerman, N.

    “…Moving to a three dimensional architecture, such as finFETs (field effect transistor), tri-gate FETS or nanowires, will allow semiconductor devices to scale…”
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  7. 7
    High Fidelity Qubit Readout with the Superconducting Low-Inductance Undulatory Galvanometer Microwave Amplifier

    High Fidelity Qubit Readout with the Superconducting Low-Inductance Undulatory Galvanometer Microwave Amplifier by Hover, D, Zhu, S, Thorbeck, T, Ribeill, G. J, Sank, D, Kelly, J, Barends, R, Martinis, John M, McDermott, R

    Published 29-12-2013
    “…We describe the high fidelity dispersive measurement of a superconducting qubit using a microwave amplifier based on the Superconducting Low-inductance…”
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