This paper presents recent advances in the application of binary-divided 1 V array, consisting of 8192 intrinsically shunted SNIS overdamped Josephson junctions (JJs), for the synthesis of stepwise waves with quantum accuracy. The maximum output voltage is ensured by opportunely driving the subsections of the SNIS array by means of three states bias-current setpoints to the Shapiro steps n = 0, +/- 1 or n = +/- 2, respectively. Reconfigurable digital modular electronics has been designed to bias individually each of the 13 subsections of the SNIS array. A two-stage closed cycle refrigerator equipped with LF and RF electrical lines is employed for cooling-down the SNIS array for temperatures ranging from 3.6 K to above 7 K. Stepwise sine wav...
Josephson junction qubits are promising candidates for a scalable quantum processor. Such qubits are...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Energy efficient cryogenic memory and Josephson junction arrays have the potential of revolutionizin...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
An alternating programmable Josephson voltage standard (AC-PJVS) configured as a multibit digital-to...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
Binary-divided 1 V arrays were fabricated for programmable Josephson voltage standards in close coop...
A new primary standard for AC voltage based on pulse driven Josephson junction arrays is under devel...
A new experimental setup based on a two-stage cryocooler has been developed at INRIM for operation w...
We report on our recent and ongoing activities on helium-free operation with ac Josephson standards ...
Voltage dividers and buffer amplifier combinations can be used to transfer and extend traceability i...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Josephson junction qubits are promising candidates for a scalable quantum processor. Such qubits are...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Energy efficient cryogenic memory and Josephson junction arrays have the potential of revolutionizin...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
An alternating programmable Josephson voltage standard (AC-PJVS) configured as a multibit digital-to...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
Binary-divided 1 V arrays were fabricated for programmable Josephson voltage standards in close coop...
A new primary standard for AC voltage based on pulse driven Josephson junction arrays is under devel...
A new experimental setup based on a two-stage cryocooler has been developed at INRIM for operation w...
We report on our recent and ongoing activities on helium-free operation with ac Josephson standards ...
Voltage dividers and buffer amplifier combinations can be used to transfer and extend traceability i...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Josephson junction qubits are promising candidates for a scalable quantum processor. Such qubits are...
Cryogen-free operation is essential to expand applications of superconductivity, is unavoidable in s...
Energy efficient cryogenic memory and Josephson junction arrays have the potential of revolutionizin...