Optical Detection of Spin Injection in vdW Antiferromagnet

Poster-In-person

Abstract

Antiferromagnetic materials are promising for future spintronic devices, but characterizing their spin transport properties is challenging. While conventional electrical detection is invasive, optical techniques offer a non-contact, high-resolution alternative. Here, we demonstrate optical detection of evidence of electrical spin injection in the air-stable van der Waals (vdW) antiferromagnet Chromium Sulfur Bromide (CrSBr), leveraging the strong coupling between its magnetic order and excitonic properties. By passing a charge current through an adjacent Platinum (Pt) wire, we generate a spin current via the spin Hall effect that is injected into the CrSBr. This induces a canting of the AFM sublattices, evidence of which is detected as a spectral shift in the material's excitonic resonance. To distinguish spin injection from thermal artifacts, we orient the injected spin polarization parallel and orthogonal to the Néel vector and observe a pronounced anisotropic response. This work establishes a robust optical method for probing electrically driven spin dynamics in 2D magnets, accelerating the discovery of materials for spintronic devices.

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Presenters

  • Hamza Ather

    • Purdue University

Authors

  • Hamza Ather

    • Purdue University
  • Abhishek Bharatbhai Solanki

    • Purdue University
  • Andres E Allcca

  • Peter Meshkov

  • Daksh Singh

  • Shiva Teja Konakanchi

  • Karthik Pagadala

  • Artem Kryvobok

  • Pratap Adak

  • Alexei Lagoutchev

  • Alexandra Boltasseva

    • Purdue University
  • Yong Chen

  • Vinod Menon

    • City College of New York
  • Pramey Upadhyaya

    • Purdue University
  • Vladimir Shalaev

    • Purdue University