Title :
Thin-film persistent current switch
Author :
Balchandani, Priti ; Torii, Rodney H. ; Shile, Roger
Author_Institution :
Lucas Center, Stanford Univ., CA, USA
Abstract :
We have developed a fast, low power heat switch for switching a niobium thin film between the normal and superconducting state. The sputtered niobium film (400 nm thick, 100 μm wide) has a critical current density of 5×1010 Am-2. Switching is produced by joule heating a small section of the niobium film with a titanium thin-film resistor. With the heat switch in vacuum, the minimum heater power needed to switch to the normal state was 4.5×10-5 W. A simple three-dimensional thermal model shows that the minimum power is primarily determined by the thermal conductivity of the substrate. We have achieved response times less than 10-6 s.
Keywords :
critical current density (superconductivity); niobium; superconducting switches; superconducting thin films; thermal conductivity; thin film resistors; titanium; Nb; Ti; critical current density; joule heating; low power heat switch; niobium thin film switching; superconducting state; thermal conductivity; thin-film persistent current switch; thin-film resistor; three-dimensional thermal model; vacuum switch; Critical current density; Heating; Niobium; Persistent currents; Sputtering; Superconducting films; Superconducting thin films; Switches; Thermal conductivity; Transistors; Current injection; current switch; heat switch; thin film;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.847491
