Magnetic switching of exciton lifetime in CrSBr

Ina V. Kalitukha; Ilya A. Akimov; Mikhail O. Nestoklon; Torsten Geirsson; Alejandro Molina-S\'anchez; Ey\"up Yalcin; Claudia Ruppert; Daniel A. Mayoh; Geetha Balakrishnan; Muthumalai Karuppasamy; Zden\v{e}k Sofer; Yadong Wang; Daniel J. Gillard; Xuerong Hu; Alexander I. Tartakovskii; and Manfred Bayer

arXiv:2601.05413·cond-mat.mes-hall·January 12, 2026

Magnetic switching of exciton lifetime in CrSBr

Ina V. Kalitukha, Ilya A. Akimov, Mikhail O. Nestoklon, Torsten Geirsson, Alejandro Molina-S\'anchez, Ey\"up Yalcin, Claudia Ruppert, Daniel A. Mayoh, Geetha Balakrishnan, Muthumalai Karuppasamy, Zden\v{e}k Sofer, Yadong Wang, Daniel J. Gillard, Xuerong Hu

PDF

Open Access

TL;DR

This study demonstrates how magnetic phase transitions in CrSBr influence exciton lifetimes, revealing a significant reduction during the transition from antiferromagnetic to ferromagnetic order, driven by exciton localization effects.

Contribution

It provides new insights into the magnetic control of exciton dynamics in layered semiconductors, combining experimental and theoretical analysis of localization effects.

Findings

01

Exciton lifetime decreases from 11 to 7 ps during magnetic phase transition.

02

Localization of excitons enhances oscillator strength in the ferromagnetic phase.

03

Disorder-induced localization significantly impacts exciton behavior in CrSBr.

Abstract

Exciton dynamics in layered magnetic semiconductors provide a sensitive probe of the interplay between spin order and light-matter interaction. Here, we study thin CrSBr layers using time-resolved photoluminescence spectroscopy in an external magnetic field, revealing a step-like reduction in the exciton lifetime from 11 to 7 ps, during the magnetization flip from the antiferromagnetic to the ferromagnetic phase. The reduction of the exciton lifetime in the ferromagnetic phase persists below the N\'eel temperature, as evidenced by its strong magnetic-field dependence that disappears in the paramagnetic phase. Ab initio calculations reveal a one-dimensional nature of free excitons accompanied by a pronounced change in the oscillator strength across the magnetic phase transition predicting a shorter radiative lifetime of free excitons in the antiferromagnetic phase of CrSBr contradicting…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.

Taxonomy

Topics2D Materials and Applications · Heusler alloys: electronic and magnetic properties · Iron-based superconductors research