Load Compensation Bridge for Pulse-Driven Josephson Junction Arrays
- Resource Type
- Authors
- S. Bauer; Frederic Overney; Ralf Behr; Oliver Kieler; Blaise Jeanneret; Yaowaret Pimsut
- Source
- 2020 Conference on Precision Electromagnetic Measurements (CPEM).
- Subject
- Physics
Josephson effect
business.industry
Input impedance
01 natural sciences
Compensation (engineering)
Pulse (physics)
010309 optics
Load management
Optics
0103 physical sciences
Waveform
Device under test
Voltage source
010306 general physics
business
- Language
Pulse-driven Josephson junction arrays are quantum based voltage sources that can generate arbitrary waveforms with exceptional accuracy. However, wiring this perfect voltage source to a device under test drastically decrease these state of the art performances and causes deviations which scale quadratically with frequency and cable length. A load compensation bridge will be described in this paper that fully compensates the load of the Josephson arrays which is caused by the input impedance of the device under test. With this setup the frequency dependence up to a frequency of 80 kHz can be suppressed with an overall uncertainty of $2.8\ \mu\mathrm{V}/\mathrm{V}$ .