Diode efficiency in Rashba superconductors peaks at the Lifshitz transition to strong helical phases with Bogoliubov Fermi surfaces, while Josephson current anisotropy offers a probe for these surfaces in junctions.
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Superconducting diodes can provide built-in nonlinearity, nonreciprocity, and quantum features to support scalable, integrated superconducting quantum circuits with improved thermal compatibility.
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Helical phases and Bogoliubov Fermi surfaces probed by superconducting diode effects
Diode efficiency in Rashba superconductors peaks at the Lifshitz transition to strong helical phases with Bogoliubov Fermi surfaces, while Josephson current anisotropy offers a probe for these surfaces in junctions.
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Quantum Landscape of Superconducting Diodes
Superconducting diodes can provide built-in nonlinearity, nonreciprocity, and quantum features to support scalable, integrated superconducting quantum circuits with improved thermal compatibility.