Thursday, March 29, 2012

1203.6091 (Roberto Monaco)

Ultrasensitive Magnetic Sensors based on Long Josephson Tunnel Junctions
- An Alternative to SQUIDs
   [PDF]

Roberto Monaco
The properties of Josephson devices are strongly affected by geometrical effects. A loop-shaped superconducting electrode tightly couples a planar Josephson tunnel junction with the surrounding electromagnetic field. Due to the fluxoid conservation, any change of the magnetic flux linked to the loop results in a variation of the shielding current circulating around the loop which, in turn, affects the critical current of the Josephson tunnel junction. This method allows the realization of a novel family of robust superconducting devices (not based on the quantum interference) which can function as a general-purpose, ultrasensitive magnetic sensors. The best performance is accomplished without compromising the noise performance by employing an in-line-type junction longer than its Josephson penetration length. The linear (rather than periodic) response to magnetic flux changes over a wide range is just one of its several advantages compared to the most sensitive magnetic detectors currently available, namely the Superconducting Quantum Interference Devices (SQUID). We will also comment on the drawbacks of the proposed system and speculate on its noise properties.
View original: http://arxiv.org/abs/1203.6091

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