Bridging the Gap Between Nanowires and Josephson Junctions: A Superconducting Device Based on Controlled Fluxon Transfer

Bridging the Gap Between Nanowires and Josephson Junctions: A Superconducting Device Based on Controlled Fluxon Transfer

The basis for superconducting electronics can broadly be divided between two technologies: the Josephson junction and the superconducting nanowire. While the Josephson junction (JJ) remains the dominant technology due to its high speed and low power dissipation, recently proposed nanowire devices of...

Full description

Bibliographic Details
Main Authors:	McCaughan, A. N. (Author), Toomey, Emily Anne (Contributor), Onen, Murat (Contributor), Colangelo, Marco (Contributor), Butters, Brenden Andrew (Contributor), Berggren, Karl K (Contributor)
Other Authors:	Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science (Contributor)
Format:	Article
Language:	English
Published:	American Physical Society, 2019-03-22T20:59:08Z.
Subjects:	Article
Online Access:	Get fulltext

Similar Items

Frequency Pulling and Mixing of Relaxation Oscillations in Superconducting Nanowires
by: Toomey, Emily Anne, et al.
Published: (2018)

A compact superconducting nanowire memory element operated by nanowire cryotrons
by: Zhao, Qing-Yuan, et al.
Published: (2020)

Fluxon lattice dynamics in the superconducting mixed state
by: Gans, Ronald Richard
Published: (2009)

A Superconducting-Nanowire 3-Terminal Electronic Device
by: McCaughan, Adam N., et al.
Published: (2015)

Compact and Tunable Forward Coupler Based on High-Impedance Superconducting Nanowires
by: Colangelo, Marco, et al.
Published: (2022)

Thermal activation of superconducting Josephson junctions
by: Devalapalli, Aditya P. (Aditya Prakash)
Published: (2008)

Topological Superconductivity in a Planar Josephson Junction
by: Falko Pientka, et al.
Published: (2017-05-01)

Superconducting nanoelectronics using controllable Josephson junctions
by: Hutchinson, G. D.
Published: (2006)

Design of a Power Efficient Artificial Neuron Using Superconducting Nanowires
by: Emily Toomey, et al.
Published: (2019-09-01)

Fabrication and electrical measurements of superconducting Josephson junction devices.
by: Jia-You Hong, et al.
Published: (2014)

Angular dependence of Josephson currents in unconventional superconducting junctions
by: Yokoyama, T., et al.
Published: (2007)

Nonlinear dynamics of Josephson Junction Chains and Superconducting Resonators
by: Ergül, Adem
Published: (2013)

Fabrication and characterization of Josephson junctions for superconducting quantum bits
by: Chia-Yi Hsu, et al.
Published: (2013)

Fabrication of thin film superconductive josephson tunnel junctions
by: Emmanuel, A.
Published: (1974)

The Superconducting Josephson Junction Device Application in Microwave Optics
by: Wei-Chen Chien, et al.
Published: (2017)

Microwave and superconducting techniques for measurements on unconventional Josephson junctions
by: Klemencic, Georgina Marie
Published: (2013)

Design of a Power Efficient Artificial Neuron Using Superconducting Nanowires
by: Toomey, Emily Anne, et al.
Published: (2020)

Superconducting nanowire electronics for alternative computing
by: Toomey, Emily.
Published: (2020)

Theory of the Josephson effect in unconventional superconducting junctions with diffusive barriers
by: Yokoyama, T., et al.
Published: (2007)

Fabrication of Nanoscale Josephson Junctions and Superconducting Quantum Interference Devices
by: Kitapli, Feyruz
Published: (2011)

Fabrication of Nanoscale Josephson Junctions and Superconducting Quantum Interference Devices
by: Kitapli, Feyruz
Published: (2011)

Tunnelling and switching phenomena in superconducting quantum dots and Josephson junctions
by: Gulevich, Dmitry R.
Published: (2006)

Superconducting-nanowire single-photon-detector linear array
by: Zhao, Qingyuan, et al.
Published: (2014)

Microwave dynamics of high aspect ratio superconducting nanowires studied using self-resonance
by: Santavicca, Daniel F., et al.
Published: (2017)

Bias sputtered NbN and superconducting nanowire devices
by: Dane, Andrew Edward, et al.
Published: (2020)

Charging of Superconducting Layers in Arrays of Coupled Josephson Junctions for Overcritical Currents
by: Marina Cuzminschi, et al.
Published: (2019-06-01)

Josephson junctions in high temperature superconducting patterned thin film resonators
by: Elfassy, Laurent Albert Isaac
Published: (1998)

Josephson Currents and Gap Enhancement in Graph Arrays of Superconductive Islands
by: Massimiliano Lucci, et al.
Published: (2021-06-01)

Microwave response of nonlinear oscillations in resistively shunted superconducting nanowires
by: Toomey, Emily
Published: (2018)

A Josephson junction bridge track and hold circuit
by: Tam, Kimo Y. F. (Kimo Yat Fung)
Published: (2007)

Mobile fluxons as coherent probes of periodic pinning in superconductors
by: Oleksandr V. Dobrovolskiy, et al.
Published: (2017-10-01)

Josephson detection of time-reversal symmetry broken superconductivity in SnTe nanowires
by: C. J. Trimble, et al.
Published: (2021-06-01)

Josephson detection of time-reversal symmetry broken superconductivity in SnTe nanowires
by: Trimble, CJ, et al.
Published: (2022)

Free-space-coupled superconducting nanowire single-photon detectors for infrared optical communications
by: Bellei, Francesco, et al.
Published: (2017)

Magnetically-driven colossal supercurrent enhancement in InAs nanowire Josephson junctions
by: J. Tiira, et al.
Published: (2017-04-01)

Environment-induced overheating phenomena in Au-nanowire based Josephson junctions
by: O. V. Skryabina, et al.
Published: (2021-07-01)

Development of a scalable superconducting memory
by: Butters, Brenden A
Published: (2019)

Josephson spin-current in superconductor-ferromagnetic-superconductor junctions with singlet superconducting leads
Published: (2010-09-01)

ENERGY STATES AND TRANSITIONS IN A SUPERCONDUCTING LOOP CONTAINING A JOSEPHSON JUNCTION
by: CARTER, JOHN TATUM
Published: (2007)

Laser-annealing Josephson junctions for yielding scaled-up superconducting quantum processors
by: Jared B. Hertzberg, et al.
Published: (2021-08-01)