IEEE Journal on Exploratory Solid-State Computational Devices and Circuits (Jan 2022)

Physics-Based Models for Magneto-Electric Spin-Orbit Logic Circuits

  • Hai Li,
  • Dmitri E. Nikonov,
  • Chia-Ching Lin,
  • Kerem Camsari,
  • Yu-Ching Liao,
  • Chia-Sheng Hsu,
  • Azad Naeemi,
  • Ian A. Young

DOI
https://doi.org/10.1109/JXCDC.2022.3143130
Journal volume & issue
Vol. 8, no. 1
pp. 10 – 18

Abstract

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Spintronic devices provide a promising beyond-complementary metal-oxide-semiconductor (CMOS) device option, thanks to their energy efficiency and compatibility with CMOS. To accurately capture their multiphysics dynamics, a rigorous treatment of both spin and charge and their inter-conversion is required. Here, we present physics-based device models based on $4\times4$ matrices for the spin-orbit coupling (SOC) part of the magneto-electric spin-orbit (MESO) device. Also, a more rigorous physics model of ferroelectric and magnetoelectric (ME) switching of ferromagnets, based on Landau–Lifshitz–Gilbert (LLG) and Landau–Khalatnikov (LK) equations, are presented. With the combined model implemented in a SPICE circuit simulator environment, simulation results were obtained which show feasibility of the MESO implementation and the functional operation of buffers, synchronous oscillators, and majority gates.

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