We make here a qualitative comparison between the conductance measurements and the model in Eq

Model-experiment comparison at finite magnetic fields By applying a magnetic field, the YSR states are spin split, leading to a doubling of the conductance peaks when the excited s

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Granular aluminum induced superconductivity in germanium for hole spin-based hybrid devices

cond-mat.mes-hall · 2026-02-24 · conditional · novelty 6.0

Granular aluminum induces a hard, magnetically resilient superconducting gap of 305 μeV in germanium, allowing Zeeman splitting of YSR states beyond 50 μeV and g-tensor tunability for hole-based hybrid quantum devices.

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Granular aluminum induced superconductivity in germanium for hole spin-based hybrid devices cond-mat.mes-hall · 2026-02-24 · conditional · none · ref 74
Granular aluminum induces a hard, magnetically resilient superconducting gap of 305 μeV in germanium, allowing Zeeman splitting of YSR states beyond 50 μeV and g-tensor tunability for hole-based hybrid quantum devices.

We make here a qualitative comparison between the conductance measurements and the model in Eq

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