Aviv Glezer Moshe scite author profile

Aviv Glezer Moshe

3Publications

39Citation Statements Received

58Citation Statements Given

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Affiliations

Tel Aviv University, Ariel University

Publications

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Optical conductivity of granular aluminum films near the Mott metal-to-insulator transition

2019

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We report measurements of the energy gap of granular aluminum films by THz spectroscopy. We find that as the grains progressively decouple, the coupling ratio 2∆(0)/kBTc increases above the BCS weak coupling ratio 3.53, and reaches values consistent with an approach to BCS-BEC crossover for the high resistivity samples, expected from the short coherence length. The Mattis-Bardeen theory describes remarkably well the behavior of σ1,s/σ1,n for all samples up to very high normal state resistivities. arXiv:1901.02814v2 [cond-mat.supr-con]

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High sensitivity high T_c superconducting Josephson junction antenna for 200 GHz detection

Holdengreber

Moshe

Mizrahi

et al. 2018

Journal of Electromagnetic Waves and Applications

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Granular superconductors for high kinetic inductance and low loss quantum devices

Moshe

Farber

Deutscher

2020

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Granular aluminum is a promising material for high kinetic inductance devices such as qubit circuits. It has the advantage over atomically disordered materials such as NbNx, to maintain a high kinetic inductance concomitantly with a high quality factor. We show that high quality nano-scale granular aluminum films having a sharp superconducting transition with normal state resistivity values on the order of 1×105 μΩ cm and kinetic inductance values on the order of 10 nH/◻ can be obtained, surpassing the state-of-the-art values. We argue that this is a result of the different nature of the metal-to-insulator transition, being electronic correlations driven (Mott type) in the former and disorder driven (Anderson type) in the latter.

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