2021
DOI: 10.48550/arxiv.2112.09421
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Ultra-Highly Linear Magnetic Flux-to-Voltage response in Proximity-based Mesoscopic bi-SQUIDs

Giorgio De Simoni,
Lorenzo Cassola,
Nadia Ligato
et al.

Abstract: Superconducting double-loop interferometers (bi-SQUIDs) have been introduced to produce magnetic flux sensors specifically designed to exhibit ultra-highly linear voltage response as a function of the magnetic flux. These devices are very important for the quantum sensing and for signal processing of signals oscillating at the radio-frequencies range of the electromagnetic spectrum. Here, we report an Al double-loop bi-SQUIDs based on proximitized mesoscopic Cu Josephson junctions. Such a scheme provides an al… Show more

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Cited by 1 publication
(2 citation statements)
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“…L spans a large interval of values as a function of φ ranging from a minimum of ∼ −20 dB (i. e., the response is strongly non linear) in the surrounding of the extrema of the flux-to-voltage characteristics, to a maximum value as large as ∼ 60 dB around the zeroes. Such performance is equivalent to that of SNS mesoscopic bi-SQUIDs [16] and close to that of arrays of bi-SQUIDs. Interestingly, by changing the value of δ φ , the maximum value of L shifts accordingly.…”
Section: Evaluation Of the Linearity Of The Flux-to-voltage Responsementioning
confidence: 57%
See 1 more Smart Citation
“…L spans a large interval of values as a function of φ ranging from a minimum of ∼ −20 dB (i. e., the response is strongly non linear) in the surrounding of the extrema of the flux-to-voltage characteristics, to a maximum value as large as ∼ 60 dB around the zeroes. Such performance is equivalent to that of SNS mesoscopic bi-SQUIDs [16] and close to that of arrays of bi-SQUIDs. Interestingly, by changing the value of δ φ , the maximum value of L shifts accordingly.…”
Section: Evaluation Of the Linearity Of The Flux-to-voltage Responsementioning
confidence: 57%
“…For the latter case, response linearity is a major requirement, which is generally improved through external reaction loops [1,3,6] or through the construction of arrays of SQUIDs [7,11], at the cost of a worsening of the operation bandwidth and device integrability. A solution to these restrictions has arisen from the introduction of multi-loop superconducting interferometers, the main types of which are bi-SQUIDs [12][13][14][15][16] and D-SQUIDs [17,18].…”
Section: Introductionmentioning
confidence: 99%