Title :
Fast NbN superconducting switch controlled by optical radiation
Author :
Zorin, M. ; Milostnaya, I. ; Gol´tsman, G.N. ; Gershenzon, E.M.
Author_Institution :
Moscow State Pedagogical Univ., Russia
fDate :
6/1/1997 12:00:00 AM
Abstract :
The switching time and the optical control power of the NbN superconducting switch have been measured. The device is based on the ultrathin film 5-8 nm thick patterned as a structure of several narrow parallel strips (/spl sim/1 /spl mu/m wide) connected to wide current leads. The current-voltage characteristic of the switch at temperature 4.2 K demonstrated a hysteresis due to DC current self-heating. We studied the superconducting-to-resistive state transition induced by both optical and bias-current excitations. The optical pulse duration was /spl sim/20 ps and the rise time of the current step was determined to be less than 50 ps. The optical pulse was delivered to the switch by the semiconductor laser through an optical fiber. We found that the measured switching time is less than the duration of the optical excitation. The threshold optical power density does not exceed 3/spl middot/10/sup 3/ W/cm/sup 2/. The proposed device can be used in the fiber input of LTS rapid single flux quantum circuits.
Keywords :
niobium compounds; optical switches; superconducting switches; superconducting thin films; DC current self-heating; LTS rapid single flux quantum circuit; NbN; current-voltage characteristics; hysteresis; optical control; optical pulse excitation; superconducting switch; superconducting-to-resistive state transition; ultrathin film; Laser excitation; Optical control; Optical films; Optical pulses; Optical switches; Power measurement; Power semiconductor switches; Strips; Superconducting films; Time measurement;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
