Direct extraction of electron parameters from magnetoconductance analysis in mesoscopic ring array structures

A. Sawada, S. Faniel, S. Mineshige, S. Kawabata, Keiji Saitou, K. Kobayashi, Y. Sekine, H. Sugiyama, T. Koga

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2 Citations (Scopus)

Abstract

We report an approach for examining electron properties using information about the shape and size of a nanostructure as a measurement reference. This approach quantifies the spin precession angles per unit length directly by considering the time-reversal interferences on chaotic return trajectories within mesoscopic ring arrays (MRAs). Experimentally, we fabricated MRAs using nanolithography in InGaAs quantum wells which had a gate-controllable spin-orbit interaction (SOI). As a result, we observed an Onsager symmetry related to relativistic magnetic fields, which provided us with indispensable information for the semiclassical billiard ball simulation. Our simulations, developed based on the real-space formalism of the weak localization/antilocalization effect including the degree of freedom for electronic spin, reproduced the experimental magnetoconductivity (MC) curves with high fidelity. The values of five distinct electron parameters (Fermi wavelength, spin precession angles per unit length for two different SOIs, impurity scattering length, and phase coherence length) were thereby extracted from a single MC curve. The methodology developed here is applicable to wide ranges of nanomaterials and devices, providing a diagnostic tool for exotic properties of two-dimensional electron systems.

Original languageEnglish
Article number195303
JournalPhysical Review B
Volume97
Issue number19
DOIs
Publication statusPublished - 2018 May 8

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ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics

Cite this

Sawada, A., Faniel, S., Mineshige, S., Kawabata, S., Saitou, K., Kobayashi, K., Sekine, Y., Sugiyama, H., & Koga, T. (2018). Direct extraction of electron parameters from magnetoconductance analysis in mesoscopic ring array structures. Physical Review B, 97(19), [195303]. https://doi.org/10.1103/PhysRevB.97.195303