We have realized submicron tunnel ferromagnetic Al/AlOx/Al/Ni80Fe20/Al Josephson junctions (JJs) in Manhattan-style configuration for qubit applications. These junctions have been designed to lie within the energy range of transmons. The current–voltage characteristics of these junctions are comparable with those of standard JJs implemented in state-of-the-art transmons, thus confirming the high quality of the devices and marking a significant step toward the realization of the ferrotransmon. Low-frequency characterization confirms that our junctions operate in the quantum phase diffusion limit, as tunnel JJs in conventional transmons with similar characteristic energies. Ultimately, mitigation of quantum phase fluctuations will represent a key for advancing the entire field of superconducting quantum circuit architectures.
Submicrometer tunnel ferromagnetic Josephson junctions with transmon energy scale / Satariano, R.; Ferraiuolo, R.; Calloni, F.; Ahmad, H. G.; Gatta, Davide; Tafuri, F.; Bruno, A.; Massarotti, D.. - In: APPLIED PHYSICS LETTERS. - ISSN 0003-6951. - 127:(2025). [10.1063/5.0303194]
Submicrometer tunnel ferromagnetic Josephson junctions with transmon energy scale
R. Satariano
;F. Calloni;H. G. Ahmad;F. Tafuri;D. Massarotti
2025
Abstract
We have realized submicron tunnel ferromagnetic Al/AlOx/Al/Ni80Fe20/Al Josephson junctions (JJs) in Manhattan-style configuration for qubit applications. These junctions have been designed to lie within the energy range of transmons. The current–voltage characteristics of these junctions are comparable with those of standard JJs implemented in state-of-the-art transmons, thus confirming the high quality of the devices and marking a significant step toward the realization of the ferrotransmon. Low-frequency characterization confirms that our junctions operate in the quantum phase diffusion limit, as tunnel JJs in conventional transmons with similar characteristic energies. Ultimately, mitigation of quantum phase fluctuations will represent a key for advancing the entire field of superconducting quantum circuit architectures.| File | Dimensione | Formato | |
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