A new experimental setup based on a two-stage cryocooler has been developed at INRIM for operation with Josephson arrays. Recently some parts of the setup have been upgraded in order to allow the synthesis of waveforms; in particular, a well suited rigid rf coaxial cable with bandwidth exceeding 30 GHz has been mounted. We describe preliminary results obtained in tests of waveform synthesis with pulse-driven Josephson arrays fabricated at PTB. Unipolar sinewaves at 1.25 kHz and amplitudes ranging up to tens of millivolts were generated. Results are then discussed in relation with the specific thermal issues posed by He-free cooling
Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) ...
Voltage dividers and buffer amplifier combinations can be used to transfer and extend traceability i...
We are developing a prototype of cryogenic parametric converter transducer operating at 5 GHz, for t...
A new experimental setup based on a two-stage cryocooler has been developed at INRIM for operation w...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
A probe station, suitable for the electrical characterization of integrated circuits at cryogenic te...
In order to support the planned CEBAF upgrade at the Jefferson Lab a new cryomodule has been designe...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
A cryogen-free cryostat was set up in order to perform measurements at ultra low temperatures. The s...
A self-contained, fully portable, Josephson junction voltage reference standard system has been desi...
A cryogenic measurement system capable of performing on-wafer RF testing of semiconductor devices an...
Temperature sensing and control are essential in experiments running in cryocooled systems, as with ...
Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) ...
Voltage dividers and buffer amplifier combinations can be used to transfer and extend traceability i...
We are developing a prototype of cryogenic parametric converter transducer operating at 5 GHz, for t...
A new experimental setup based on a two-stage cryocooler has been developed at INRIM for operation w...
Pulse-driven Josephson junctions allow the synthesis of very precise both spectrally pure and arbitr...
In the last decades, voltage metrology research has been mainly directed towards the application of ...
Cryogen-free operation of is essential to spread applications of superconductivity and is indeed una...
The Josephson effect is worldwide exploited as the basis for constant reference voltages in National...
A probe station, suitable for the electrical characterization of integrated circuits at cryogenic te...
In order to support the planned CEBAF upgrade at the Jefferson Lab a new cryomodule has been designe...
This paper presents recent advances in the application of binary-divided 1 V array, consisting of 81...
A cryogen-free cryostat was set up in order to perform measurements at ultra low temperatures. The s...
A self-contained, fully portable, Josephson junction voltage reference standard system has been desi...
A cryogenic measurement system capable of performing on-wafer RF testing of semiconductor devices an...
Temperature sensing and control are essential in experiments running in cryocooled systems, as with ...
Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) ...
Voltage dividers and buffer amplifier combinations can be used to transfer and extend traceability i...
We are developing a prototype of cryogenic parametric converter transducer operating at 5 GHz, for t...