Title :
Cryocooled 10 V Programmable Josephson Voltage Standard
Author :
Rufenacht, Alain ; Howe, Logan A. ; Fox, Anna E. ; Schwall, Robert E. ; Dresselhaus, Paul D. ; Burroughs, Charles J. ; Benz, Samuel P.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
Abstract :
The two main challenges to operating a programmable Josephson voltage standard (PJVS) on a cryocooler are the available cooling power and the temperature oscillations of the cold head. We overcame these challenges and successfully operated a PJVS circuit on a cryocooler by employing one supercritical helium buffer that damps the temperature oscillations, developing a new cryogenic package that increases the thermal conductivity between the chip and the cold head, and increasing overall device performance with fabrication improvements. A 1.32 mA step width of the quantized voltage produced with all of the subarrays of the PJVS circuit biased was achieved at an operating temperature of 4.3 K. The quantum accuracy of the PJVS is maintained at temperatures up to 4.8 K. This result was obtained with a cryocooler that employs a 3 kW water-cooled compressor to produce at the chip about 270 mW of net cooling power at 4.3 K.
Keywords :
compressors; cooling; cryogenics; measurement standards; thermal conductivity; voltage measurement; PJVS circuit; cryocooler; cryogenic package; current 1.32 mA; power 3 kW; programmable Josephson voltage standard; supercritical helium; temperature 4.3 K; temperature oscillation; thermal conductivity; voltage 10 V; voltage quantized; water-cooled compressor; Cooling; Electromagnetic heating; Microwave circuits; Standards; Temperature measurement; Voltage measurement; Josephson arrays; quantization; standards; superconducting integrated circuits; voltage measurement; voltage measurement.;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2014.2374697
