Tuning Néel temperature in Magnetoelectric B-doped Cr2O3 films

ORAL

Abstract

Multi-functional thin films of boron (B) doped Cr2O3 exhibit voltage-controlled and nonvolatile Néel vector π/2 rotation in the absence of a magnetic field. Isothermal toggling of antiferromagnetic states is demonstrated in prototype device structures at CMOS compatible temperatures between 300 K and 400 K. Néel vector rotation is detected with the help of heavy metal (Pt) Hall-bars in proximity of pulsed laser deposited B:Cr2O3 films. Cold neutron depth profiling (cNDP), performed at National Institute of Standards and Technology, reveals thermally activated B-accumulation at the B:Cr2O3/ vacuum interface in thin films deposited on Al2O3 substrates. This work uses cNDP and Spin Hall measurements [1] to demonstrate a shift in TN towards higher values of ≈ 477 K, associated with the increase in B-concentration within an interfacial layer of about 50 nm.

[1] A. Mahmood et al., Adv. Physics. Res., 2023, 2300061

* Financial support by NSF/EPSCoR RII Track-1: Emergent Quantum Materials and Technologies, OIA-2044049 is acknowledged. The research was performed in part in the NNF: NNCI and the NCMN, supported by NSF under ECCS:2025208, and the NRI. Contributions of the National Institute of Standards and Technology are not subject to copyright.

Publication: ​​​​​​​[1] A. Mahmood et al., Adv. Physics. Res., 2023, 2300061

Presenters

  • Ather Mahmood

    University of Nebraska - Lincoln

Authors

  • Ather Mahmood

    University of Nebraska - Lincoln

  • Jamie L Weaver

    National Institute of Standards and Technology

  • Syed Qamar Abbas Shah

    University of Nebraska - Lincoln

  • Will Echtenkamp

    University of Nebraska - Lincoln

  • Jeffrey W Lynn

    National Institute of Standards and Technology

  • Peter A Dowben

    University of Nebraska - Lincoln, University of Nebraska-Lincoln, Dept. of Physics and Astronomy, U. of Nebraska, Lincoln, Nebraska

  • Christian Binek

    University of Nebraska - Lincoln