We report on our recent and ongoing activities on helium-free operation with ac Josephson standards based on programmable superconductor-normal conductor-insulator-superconductor (SNIS) arrays. Liquid helium-free operation provides ease of use, which is a wider number of applications and users. Moreover, it allows to reduce cable loading, which is crucial to overcome frequency-related limitations to the accuracy. Thermalization problems not faced with helium cooling are still challenging, in particular with programmable standards. To identify the effect of He-free cooling on electrical behavior, we compared the array steps in cryocooler a liquid helium. Results show that SNIS arrays can be operated in cryocooler and are interesting for appl...
AbstractLBNL is developing an innovative data acquisition module for superconductive magnets where t...
Josephson junctions with non-hysteretic current-voltage characteristics form the basis of most super...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
We report on our recent and ongoing activities on helium-free operation with ac Josephson standards ...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
Superconducting digital logic electronics based on Josephson junctions is established as the ultra-f...
Cooling efficiency and thermal stability is strictly demanding for practical applications of superco...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
A robust cryogenic infrastructure in form of a wired, thermally optimized dilution refrigerator is e...
Binary-divided 1 V arrays were fabricated for programmable Josephson voltage standards in close coop...
AbstractLBNL is developing an innovative data acquisition module for superconductive magnets where t...
Josephson junctions with non-hysteretic current-voltage characteristics form the basis of most super...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
We report on our recent and ongoing activities on helium-free operation with ac Josephson standards ...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
Superconducting digital logic electronics based on Josephson junctions is established as the ultra-f...
Cooling efficiency and thermal stability is strictly demanding for practical applications of superco...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
A robust cryogenic infrastructure in form of a wired, thermally optimized dilution refrigerator is e...
Binary-divided 1 V arrays were fabricated for programmable Josephson voltage standards in close coop...
AbstractLBNL is developing an innovative data acquisition module for superconductive magnets where t...
Josephson junctions with non-hysteretic current-voltage characteristics form the basis of most super...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...