This Letter presents fabrication and characterization of an optimized superconducting quantum interference proximity transistor. The present device, characterized by reduced tunnel junction area and shortened normal-metal section, demonstrates no hysteresis at low temperatures as we increased the Josephson inductance of the weak link by decreasing its cross section. It has consequently almost an order of magnitude improved magnetic field responsivity as compared to the earlier design. The modulation of both the current and the voltage across the junction have been measured as a function of magnetic flux piercing the superconducting loop.Peer reviewe
A Josephson tunnel junction transistor based on quasiparticle injection is proposed. Its operationre...
We have investigated proximity-induced supercurrents in single-walled carbon nanotubes. Phase diffus...
Magnetometers exploiting interference effect of the superconducting wavefunction are known since the...
This Letter presents fabrication and characterization of an optimized superconducting quantum interf...
We present tunnel spectroscopy experiments on the proximity effect in lateral superconductor–normal-...
We present an optimized superconducting quantum interference proximity transistor (SQUIPT) [1]. In s...
The design for an inductive superconducting quantum interference proximity transistor with enhanced ...
We utilize the band structure of a mesoscopic Josephson junction to construct low noise amplifiers. ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
We propose a mesoscopic kinetic-inductance radiation detector based on a long superconductor-normal ...
In quantum technology, several aspects of superconductivity such as proximity effect have studied to...
We present an experimental study of the magnetic flux dependence of the critical current of a balanc...
We report the fabrication and characterization of an alternative design for a superconducting quantu...
The Josephson diode (JD) is a non-reciprocal circuit element that supports a larger critical current...
In quantum technology, several aspects of superconductivity such as proximity effect have studied to...
A Josephson tunnel junction transistor based on quasiparticle injection is proposed. Its operationre...
We have investigated proximity-induced supercurrents in single-walled carbon nanotubes. Phase diffus...
Magnetometers exploiting interference effect of the superconducting wavefunction are known since the...
This Letter presents fabrication and characterization of an optimized superconducting quantum interf...
We present tunnel spectroscopy experiments on the proximity effect in lateral superconductor–normal-...
We present an optimized superconducting quantum interference proximity transistor (SQUIPT) [1]. In s...
The design for an inductive superconducting quantum interference proximity transistor with enhanced ...
We utilize the band structure of a mesoscopic Josephson junction to construct low noise amplifiers. ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
We propose a mesoscopic kinetic-inductance radiation detector based on a long superconductor-normal ...
In quantum technology, several aspects of superconductivity such as proximity effect have studied to...
We present an experimental study of the magnetic flux dependence of the critical current of a balanc...
We report the fabrication and characterization of an alternative design for a superconducting quantu...
The Josephson diode (JD) is a non-reciprocal circuit element that supports a larger critical current...
In quantum technology, several aspects of superconductivity such as proximity effect have studied to...
A Josephson tunnel junction transistor based on quasiparticle injection is proposed. Its operationre...
We have investigated proximity-induced supercurrents in single-walled carbon nanotubes. Phase diffus...
Magnetometers exploiting interference effect of the superconducting wavefunction are known since the...