Optical Spin Sensing And Metamagnetic Phase Control In The 2D Van Der Waals Magnet Yb³⁺-Doped CrPS₄

Authors

J. T. Baillie
K. Pressler
N. J. Adams
F. Horani
T. J. Snoeren
Rémi Beaulac, Swarthmore CollegeFollow
D. R. Gamelin

Document Type

Article

Publication Date

9-30-2025

Published In

ACS Nano

Abstract

The emergence of two-dimensional magnets within the van der Waals toolkit has introduced extraordinary opportunities to develop ultrathin spintronic technologies. Strong coupling between spin and optical properties in such materials can further enable powerful spin-photonic capabilities of both fundamental and technological interest. Here, we investigate the optical and spin properties of the air-stable, layered A-type antiferromagnet chromium thiophosphate (CrPS₄) when doped with Yb³⁺. We show that the collective spin properties of CrPS₄ are encoded in the sharp f–f luminescence of isolated Yb³⁺ dopants via strong magnetic superexchange coupling between the two, and that spontaneous magnetic ordering in CrPS₄ induces large exchange splittings in the narrow Yb³⁺ f–f photoluminescence features below T_N. Spin reorientation in CrPS₄ via a “spin-flop” metamagnetic transition modulates the Yb³⁺ f–f luminescence energies and exchange splittings. This pronounced link between spin and optical properties enables the demonstration of optically driven spin-flop transitions in CrPS₄.

Keywords

Chromium Thiophosphate, Lanthannide, Dopant, Magnetic Exchange, Photoluminesence, Van Der Waals, Photothermal Switching

Recommended Citation

J. T. Baillie, K. Pressler, N. J. Adams, F. Horani, T. J. Snoeren, Rémi Beaulac, and D. R. Gamelin. (2025). "Optical Spin Sensing And Metamagnetic Phase Control In The 2D Van Der Waals Magnet Yb³⁺-Doped CrPS₄". ACS Nano. Volume 19, Issue 38. 34408-34417. DOI: 10.1021/acsnano.5c12767
https://works.swarthmore.edu/fac-chemistry/306