Exploring Novel Antiferromagnets at High Magnetic Fields and Ultrafast Time Scales

Sean M Knapp; Arup Barua; Hengzhou Liu; Varun Mapara; Shirin Mozaffari; Dmitry Serenov; David Mandrus; Stephen McGill; Denis Karaiskaj

Exploring Novel Antiferromagnets at High Magnetic Fields and Ultrafast Time Scales

ORAL

Abstract

This study explores a novel class of compounds with general composition R₂RnIn₈ (where R = rare earth = Tb, Dy, Ho, Er and Gd) provide another possibility of tuning the system towards quantum criticality due to their layered structure. Data on the crystal Ho₂RhIn₈, which exhibits antiferromagnet ordering below its Néel temperature (T_N) of 10.9 K will be presented. The material approaches its intermediate magnetic phase when the induced magnetic field is 2.5 T. Once the field is increased to 6 T, ferromagnetic ordering results. The experiment demonstrates the first signs of light-induced magnetization when driving the crystal at a phase boundary between its two antiferromagnetic phases.

March 8, 2024, 10:48 AM – March 8, 2024, 11:00 AM

Presenters

Sean M Knapp
- University of South Florida

Authors

Sean M Knapp
- University of South Florida
Arup Barua
- University of South Florida
Hengzhou Liu
- University of South Florida
Varun Mapara
- University of South Florida
Shirin Mozaffari
- University of Tennessee, Knoxville
Dmitry Serenov
- National High Magnetic Field Lab
David Mandrus
- University of Tennessee
Stephen McGill
- National High Magnetic Field Lab
- NHMFL
Denis Karaiskaj
- Univ of South Florida