Abstract

The suppression of the critical current in YBCO Josephson junctions by the Earth's magnetic field strongly affects the operation of SQUIDs outside magnetic shielding. Commonly, one observes a modulation of the SQUID flux-voltage transfer function amplitude, V/sub sq-pp/, with a period of /spl Delta/B/sub 0-v/ leading to an increased white flux noise level or unstable SQUID operation. Here, we report on the investigation of /spl Delta/B/sub 0-v/ of rf-SQUID sensors based on step edge junctions (SEJ) operated in a flip chip configuration with coplanar resonators with integrated flux concentrators. To investigate the origin of the suppression of V/sub sq-pp/, we opened the SQUID loop of some samples and measured the magnetic field dependence of the critical current I/sub c/(B) directly and compared it to V/sub sq-pp/(B). It is shown that a junction width in the submicrometer scale is required for operation of the sensors in the Earth's magnetic field.

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