Momentum Microscopy Study on Strained Thin Films of Altermagnetic MnTe

Lincoln Curtis; Syed Mohammad Fakruddin Shahed; Imrankhan Mulani; Matthew Matzelle; Vineet Kumar Sharma; Sara Bey; Nurul Azam; Alex Poulin; Arun Bansil; Swastik Kar; Badih A Assaf; Alberto de la Torre Durran

Momentum Microscopy Study on Strained Thin Films of Altermagnetic MnTe

POSTER

Abstract

Altermagnets are a novel type of magnet characterized by alternating spin splitting in the band structure despite compensated, collinear magnetic moments in real space. When there are rotational symmetries that enable broken time reversal symmetry, these materials can exhibit spontaneous magneto-transport phenomena arising from electronic symmetry, including the anomalous Hall effect (AHE). To date, the ability to tune the AHE in altermagnets on demand is lacking. Recently, it was discovered that the AHE can be tuned by an external magnetic field when the altermagnetic manganese telluride (MnTe) is spontaneously strained by epitaxial growth on GaAs substrates. Here we use momentum microscopy to study strain-dependent changes to the band structure and compare our results to DFT calculations for different possible point groups of MnTe.

Presenters

Lincoln Curtis
- Northeastern University

Authors

Lincoln Curtis
- Northeastern University
Syed Mohammad Fakruddin Shahed
- Northeastern
Imrankhan Mulani
- Department of Physics and Astronomy, Howard University, Washington, DC, USA
Matthew Matzelle
- Northeastern, QMSI
Vineet Kumar Sharma
- Howard University
Sara Bey
- University of Notre Dame
Nurul Azam
- Department of Physics, Northeastern University, Boston, MA, USA
Alex Poulin
- Northeastern, QMSI
Arun Bansil
- Northeastern University
- Department of Physics, Northeastern University, Boston, MA, USA
Swastik Kar
- Department of Physics, Northeastern University, Boston, MA, USA
Badih A Assaf
- University of Notre Dame
Alberto de la Torre Durran
- Northeastern University
- Northeastern University College of Science