APS Logo

Reentrant Behavior of Topological Properties in Realistic Planar Josephson Junctions

ORAL

Abstract

We investigate the topological properties of realistic planar Josephson junctions (JJ), recently emerged as versatile platforms for topological superconductivity [1,2], as material parameters, external fields, disorder amount and system geometry are varied. We find a much richer and nonuniversal behavior compared to a standard model of topological planar JJs [1, 3]. We also consider the effect of disorder on the presence and measurability of the topological properties of planar JJs embedded in microwave circuit-QED devices [4, 5]. We find that signatures of Majorana bound states persist in the presence of disorder. We show that these systems demonstrate reentrant topological properties under increasing disorder [6]. Our findings not only demonstrate that some disorder may be beneficial to establishing topological phases, but also provide an important step towards experimental detection of non-Abelian statistics and implementing scalable topological quantum computing.

[1] F. Pientka, A. Keselman, E. Berg, A. Yacoby, A. Stern, and B. I. Halperin, Phys. Rev. X 7, 021032 (2017).

[2] J. Shabani, M. Kjaergaard, H.J. Suominen, Y. Kim, F. Nichele, K. Pakrouski, T. Stankevic, R.M. Lutchyn, P. Krogstrup, R. Feidenhans'l, et al., Two-Dimensional Epitaxial Superconductor-Semiconductor Heterostructures: A Platform for Topological Superconducting Networks, Phys. Rev. B 93, 155402 (2016).

[3] B. Pekerten, D.S. Brandão, B. Bussiere, D. Monroe, T. Zhou, J. E. Han, J. Shabani, A. Matos-Abiague, and I. Žutić, Beyond the standard model of topological Josephson junctions: From crystalline anisotropy to finite-size and diode effects, Applied Physics Letters 124, 252602 (2024).

[4] B. Pekerten, D. Brandão, B.H. Elfeky, T. Zhou, J.E. Han, J. Shabani, and I. Žutić, Microwave signatures of topological

superconductivity in planar Josephson junctions, Phys. Rev. B 110, L060513 (2024).

[5] B.H. Elfeky, K. Dindial, D.S. Brandão, B. Pekerten, J. Lee, W.M. Strickland, P.J. Strohbeen, A. Danilenko, L. Baker, M. Mikalsen, et al., Microwave Andreev Bound State Spectroscopy in a Semiconductor-Based Planar Josephson Junction, arXiv:2408.08487 (2024).

[6] B. Pekerten, D.M. Monroe, D.S. Brandão, T. Zhou, J.E. Han, I. Žutić, in prep.

Publication: [1] B. Pekerten, D.S. Brandão, B. Bussiere, D. Monroe, T. Zhou, J. E. Han, J. Shabani, A. Matos-Abiague, and I. Žutić, Beyond the standard model of topological Josephson junctions: From crystalline anisotropy to finite-size and diode effects, Applied Physics Letters 124, 252602 (2024).<br>[4] B. Pekerten, D. Brandão, B.H. Elfeky, T. Zhou, J.E. Han, J. Shabani, and I. Žutić, Microwave signatures of topological<br>superconductivity in planar Josephson junctions, Phys. Rev. B 110, L060513 (2024).<br>[5] B.H. Elfeky, K. Dindial, D.S. Brandão, B. Pekerten, J. Lee, W.M. Strickland, P.J. Strohbeen, A. Danilenko, L. Baker, M. Mikalsen, et al., Microwave Andreev Bound State Spectroscopy in a Semiconductor-Based Planar Josephson Junction, arXiv:2408.08487 (2024).<br>[6] B. Pekerten, D.M. Monroe, D.S. Brandão, T. Zhou, J.E. Han, I. Žutić, in prep.

Presenters

  • Baris Pekerten

    University at Buffalo, SUNY, University at Buffalo

Authors

  • Baris Pekerten

    University at Buffalo, SUNY, University at Buffalo

  • David M Monroe

    State Univ of NY - Buffalo

  • David de Sousa S Brandão

    University at Buffalo, SUNY, University at Buffalo

  • Tong Zhou

    Eastern Institute of Technology, Ningbo, State Univ of NY - Buffalo

  • Jong E Han

    State Univ of NY - Buffalo, University at Buffalo

  • Igor Zutic

    State Univ of NY - Buffalo, University at Buffalo