具有可调谐波含量的 Ge 基约瑟夫森器件中的非互惠到电荷-4e 超电流

Axel Leblanc, Chotivut Tangchingchai, Zahra Sadre Momtaz, Elyjah Kiyooka, Jean-Michel Hartmann, Gonzalo Troncoso Fernandez-Bada, Zoltán Scherübl, Boris Brun, Vivien Schmitt, Simon Zihlmann, Romain Maurand, Étienne Dumur, Silvano De Franceschi, François Lefloch
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引用次数: 0

摘要

混合超导体(S)-半导体(Sm)器件为超导电路带来了一系列功能。特别是,混合奇偶校验保护量子比特和约瑟夫森二极管最近被提出并得到实验验证。这类器件利用了高透明 S-Sm-S 结中约瑟夫森电流相位关系(CPR)的非正弦特性。在此,我们报告了对嵌入约瑟夫森场效应晶体管的超导量子干涉器件(SQUID)的实验研究,该器件由生长在 200 毫米硅晶片上的 SiGe/Ge/SiGe 异质结构制成。单结 CPR 最多可显示三次谐波,其振幅可通过栅极调节。在微波辐照下,前两次主要谐波(对应于单库珀对传输过程和双库珀对传输过程)的比率始终反映在整数和半整数夏皮罗阶跃的相对权重上。结合磁通量和栅极电压控制,可以将 SQUID 的功能从具有 27% 不对称的非对等约瑟夫森二极管机制调整到适合实现奇偶保护超导量子位的π周期约瑟夫森机制。这些结果说明了基于 Ge 的混合器件作为超导量子电路的多功能和可扩展构件的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

From nonreciprocal to charge-4e supercurrent in Ge-based Josephson devices with tunable harmonic content

From nonreciprocal to charge-4e supercurrent in Ge-based Josephson devices with tunable harmonic content
Hybrid superconductor(S)-semiconductor(Sm) devices bring a range of functionalities into superconducting circuits. In particular, hybrid parity-protected qubits and Josephson diodes were recently proposed and experimentally demonstrated. Such devices leverage the nonsinusoidal character of the Josephson current-phase relation (CPR) in highly transparent S-Sm-S junctions. Here, we report an experimental study of superconducting quantum-interference devices (SQUIDs) embedding Josephson field-effect transistors fabricated from a SiGe/Ge/SiGe heterostructure grown on a 200-mm silicon wafer. The single-junction CPR shows up to three harmonics with gate-tunable amplitude. In the presence of microwave irradiation, the ratio of the first two dominant harmonics, corresponding to single and double Cooper-pair transport processes, is consistently reflected in relative weight of integer and half-integer Shapiro steps. A combination of magnetic-flux and gate-voltage control enables tuning the SQUID functionality from a nonreciprocal Josephson-diode regime with 27% asymmetry to a π-periodic Josephson regime suitable for the implementation of parity-protected superconducting qubits. These results illustrate the potential of Ge-based hybrid devices as versatile and scalable building blocks of superconducting quantum circuits.
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