Measurements and noise performances of integrated nano superconducting quantum interference devices (nano-SQUIDs) are presented. The nano-sensors are based on nanometric niobium constrictions (Dayem bridges) inserted in a square loop having a side length of 200 nm. Integrated micrometric niobium coils located close to the sensor allow both an easy tuning/calibration and the optimization of the working point. Improved measurements of voltage-flux characteristic, flux to voltage transfer factor and noise performances are reported. In small signal mode, the sensors have shown a magnetic flux noise spectral density of 1.5 mu Phi(0)/Hz(1/2). Furthermore, preliminary measurements concerning the critical current vs. temperature dependence and the switching probability of the critical current are shown.
High sensitive nano-SQUID sensors based on niobium Dayem bridges
Vettoliere A;Granata C;Esposito E;Russo R;Petti L;Ruggiero B;Russo M
2009
Abstract
Measurements and noise performances of integrated nano superconducting quantum interference devices (nano-SQUIDs) are presented. The nano-sensors are based on nanometric niobium constrictions (Dayem bridges) inserted in a square loop having a side length of 200 nm. Integrated micrometric niobium coils located close to the sensor allow both an easy tuning/calibration and the optimization of the working point. Improved measurements of voltage-flux characteristic, flux to voltage transfer factor and noise performances are reported. In small signal mode, the sensors have shown a magnetic flux noise spectral density of 1.5 mu Phi(0)/Hz(1/2). Furthermore, preliminary measurements concerning the critical current vs. temperature dependence and the switching probability of the critical current are shown.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
