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Main Authors: Plouff, David T., Scheuer, Laura, Shrestha, Shreya, Wu, Weipeng, Parvez, Nawsher J., Bhatt, Subhash, Wang, Xinhao, Gundlach, Lars, Jungfleisch, M. Benjamin, Xiao, John Q.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.11240
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author Plouff, David T.
Scheuer, Laura
Shrestha, Shreya
Wu, Weipeng
Parvez, Nawsher J.
Bhatt, Subhash
Wang, Xinhao
Gundlach, Lars
Jungfleisch, M. Benjamin
Xiao, John Q.
author_facet Plouff, David T.
Scheuer, Laura
Shrestha, Shreya
Wu, Weipeng
Parvez, Nawsher J.
Bhatt, Subhash
Wang, Xinhao
Gundlach, Lars
Jungfleisch, M. Benjamin
Xiao, John Q.
contents Altermagnets are a recently discovered class of magnetic material with great potential for applications in the field of spintronics, owing to their non-relativistic spin-splitting and simultaneous antiferromagnetic order. One of the most studied candidates for altermagnetic materials is rutile structured RuO2. However, it has recently come under significant scrutiny as evidence emerged for its lack of any magnetic order. In this work, we study bilayers of epitaxial RuO2 and ferromagnetic permalloy (Fe19Ni81) by time-domain terahertz spectroscopy, probing for three possible mechanisms of laser-induced charge dynamics: the inverse spin Hall effect (ISHE), electrical anisotropic conductivity (EAC), and inverse altermagnetic spin-splitting effect (IASSE). We examine films of four common RuO2 layer orientations: (001), (100), (110), and (101). If RuO2 is altermagnetic, then the (100) and (101) oriented samples are expected to produce anisotropic emission from the IASSE, however, our results do not indicate the presence of IASSE for either as-deposited or field annealed samples. The THz emission from all samples is instead consistent with charge dynamics induced by only the relativistic ISHE and the non-relativistic and non-magnetic EAC, casting further doubt on the existence of altermagnetism in RuO2. In addition, we find that in the (101) oriented RuO2 sample, the combination of ISHE and EAC emission mechanisms produces THz emission which is tunable between linear and elliptical polarization by modulation of the external magnetic field.
format Preprint
id arxiv_https___arxiv_org_abs_2412_11240
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Revisiting altermagnetism in RuO2: a study of laser-pulse induced charge dynamics by time-domain terahertz spectroscopy
Plouff, David T.
Scheuer, Laura
Shrestha, Shreya
Wu, Weipeng
Parvez, Nawsher J.
Bhatt, Subhash
Wang, Xinhao
Gundlach, Lars
Jungfleisch, M. Benjamin
Xiao, John Q.
Materials Science
Altermagnets are a recently discovered class of magnetic material with great potential for applications in the field of spintronics, owing to their non-relativistic spin-splitting and simultaneous antiferromagnetic order. One of the most studied candidates for altermagnetic materials is rutile structured RuO2. However, it has recently come under significant scrutiny as evidence emerged for its lack of any magnetic order. In this work, we study bilayers of epitaxial RuO2 and ferromagnetic permalloy (Fe19Ni81) by time-domain terahertz spectroscopy, probing for three possible mechanisms of laser-induced charge dynamics: the inverse spin Hall effect (ISHE), electrical anisotropic conductivity (EAC), and inverse altermagnetic spin-splitting effect (IASSE). We examine films of four common RuO2 layer orientations: (001), (100), (110), and (101). If RuO2 is altermagnetic, then the (100) and (101) oriented samples are expected to produce anisotropic emission from the IASSE, however, our results do not indicate the presence of IASSE for either as-deposited or field annealed samples. The THz emission from all samples is instead consistent with charge dynamics induced by only the relativistic ISHE and the non-relativistic and non-magnetic EAC, casting further doubt on the existence of altermagnetism in RuO2. In addition, we find that in the (101) oriented RuO2 sample, the combination of ISHE and EAC emission mechanisms produces THz emission which is tunable between linear and elliptical polarization by modulation of the external magnetic field.
title Revisiting altermagnetism in RuO2: a study of laser-pulse induced charge dynamics by time-domain terahertz spectroscopy
topic Materials Science
url https://arxiv.org/abs/2412.11240