Title :
Performance of Superconducting Single-Photon Detectors Using NbN/NiCu Nanowires
Author :
Myoren, Hiroaki ; Taguchi, Shinya ; Ohshima, K. ; Wakatsuki, T. ; Taino, Tohru ; Parlato, L. ; Pepe, G.P.
Author_Institution :
Grad. Sch. of Sci. & Eng., Saitama Univ., Saitama, Japan
Abstract :
We present optical properties of nanowires consisting of both proximitized superconductor/ferromagnet bilayers of NbN/NiCu and pure superconducting NbN layers. Thin NbN/NiCu hetero-structures were deposited on MgO(100) substrates by in situ dc magnetron sputtering, while nanowires were patterned using standard electron beam lithography and reactive ion etching. Photo-response signals were recorded from 100-nm-wide, three-parallel and six-series NbN(8 nm)/NiCu nanowires by 850-nm pulsed laser irradiation (time width 400 ps, repetition rate ~ 100 MHz). For the latter configuration the fall time of voltage responses was found to be close to 1.7 ns, and it gradually increased with increasing the NiCu film thickness. Moreover, three discrete families of photo-response signals recorded for the three-parallel and six-series nanowires were also observed.
Keywords :
copper alloys; electron beam lithography; ferromagnetic materials; laser beam effects; magnetic epitaxial layers; nanopatterning; nanosensors; nanowires; nickel alloys; niobium compounds; proximity effect (superconductivity); sputter deposition; sputter etching; superconducting epitaxial layers; superconducting photodetectors; MgO; MgO(100) substrates; NbN-NiCu; epitaxial thin films; film thickness; in situ dc magnetron sputtering; nanopatterning; nanowires; optical properties; photoresponse signal; proximitized superconductor-ferromagnet bilayers; pulsed laser irradiation; pure superconducting niobium nitride layers; reactive ion etching; size 100 nm; standard electron beam lithography; superconducting single photon detectors; time 400 ps; voltage responses; Detectors; Nanowires; Optical device fabrication; Optical films; Optical pulses; Photonics; Vertical cavity surface emitting lasers; NbN; NiCu; photon-number-resolving detection; proximity effect; superconducting single-photon detectors; superconductor/ferromagnetic bilayer;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2252344
