A compact superconducting nanowire memory element operated by nanowire cryotrons

Q. Y. Zhao, E. A. Toomey, B. A. Butters, A. N. McCaughan, A. E. Dane, S. W. Nam, and K. K. Berggren.

Superconductor Science and Technology 31(3), (2018).      发表链接

Demonstration of a superconducting nanowire single photon detector with an ultrahigh polarization extinction ratio over 400 

R. Xu, Y. Li, F. Zheng, G. Zhu, L. Kang, L. Zhang, X. Jia, X. Tu, Q. Zhao, B. Jin, W. Xu, J. Chen, and P. Wu.

Optics Express 26(4), 3947 (2018).      发表链接

A superconducting nanowire can be modeled by using SPICE

K. K. Berggren, Q. Y. Zhao, N. Abebe, M. Chen, P. Ravindran, A. McCaughan, and J. C. Bardin.

Superconductor Science and Technology 31(5), (2018).      发表链接

Frequency pulling and mixing of relaxation oscillations in superconducting nanowires Emily

E. Toomey, Q. Y. Zhao, A. N. McCaughan, and K. K. Berggren.

Phyiscal Review Applied 9(6), 1–16 (2018).      发表链接

A scalable multi-photon coincidence detector based on superconducting nanowire

D. Zhu, Q. Y. Zhao, H. Choi, T. J. Lu, A. E. Dane, D. Englund, and K. K. Berggren.

Nature Nanotechnology 13(7), 596–601 (2018).      发表链接

A distributed electrical model for superconducting nanowire single photon detectors

Q. Y. Zhao, D. F. Santavicca, D. Zhu, B. Noble, and K. K. Berggren.

Applied Physics Letters 113(8), (2018).      发表链接