Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3

Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3

Abstract The two-dimensional van der Waals (vdW) magnets retaining magnetic order in atomically thin limit demonstrate challenging physical phenomena and they are considered as prospective building blocks for construction of advanced spintronics and nanoelectronics devices. Here, we present experime...

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Main Authors: D. P. Kozlenko, O. N. Lis, S. E. Kichanov, E. V. Lukin, N. M. Belozerova, B. N. Savenko
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:npj Quantum Materials
Online Access:https://doi.org/10.1038/s41535-021-00318-5
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spelling doaj-9cbf3de9ab3a4151a2e5e62c006963142021-04-02T21:03:23ZengNature Publishing Groupnpj Quantum Materials2397-46482021-03-01611510.1038/s41535-021-00318-5Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3D. P. Kozlenko0O. N. Lis1S. E. Kichanov2E. V. Lukin3N. M. Belozerova4B. N. Savenko5Frank Laboratory of Neutron Physics, JINRFrank Laboratory of Neutron Physics, JINRFrank Laboratory of Neutron Physics, JINRFrank Laboratory of Neutron Physics, JINRFrank Laboratory of Neutron Physics, JINRFrank Laboratory of Neutron Physics, JINRAbstract The two-dimensional van der Waals (vdW) magnets retaining magnetic order in atomically thin limit demonstrate challenging physical phenomena and they are considered as prospective building blocks for construction of advanced spintronics and nanoelectronics devices. Here, we present experimental evidence for negative thermal expansion of lattice volume and vdW layers and strong spin–phonon coupling effects, caused by formation of the long-range ferromagnetic order in the vdW material CrBr3. The neutron and X-ray diffraction measurements revealed anomalous temperature variation of lattice parameters and interatomic distances and angles in the vicinity of Curie temperature (T C). A pronounced rise of the frequencies of the most of the observed vibrational modes and unusual reversal broadening of their full widths at half maximum below T C was found from Raman spectroscopy measurements.https://doi.org/10.1038/s41535-021-00318-5
collection DOAJ
language English
format Article
sources DOAJ
author D. P. Kozlenko
O. N. Lis
S. E. Kichanov
E. V. Lukin
N. M. Belozerova
B. N. Savenko
spellingShingle D. P. Kozlenko
O. N. Lis
S. E. Kichanov
E. V. Lukin
N. M. Belozerova
B. N. Savenko
Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
npj Quantum Materials
author_facet D. P. Kozlenko
O. N. Lis
S. E. Kichanov
E. V. Lukin
N. M. Belozerova
B. N. Savenko
author_sort D. P. Kozlenko
title Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
title_short Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
title_full Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
title_fullStr Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
title_full_unstemmed Spin-induced negative thermal expansion and spin–phonon coupling in van der Waals material CrBr3
title_sort spin-induced negative thermal expansion and spin–phonon coupling in van der waals material crbr3
publisher Nature Publishing Group
series npj Quantum Materials
issn 2397-4648
publishDate 2021-03-01
description Abstract The two-dimensional van der Waals (vdW) magnets retaining magnetic order in atomically thin limit demonstrate challenging physical phenomena and they are considered as prospective building blocks for construction of advanced spintronics and nanoelectronics devices. Here, we present experimental evidence for negative thermal expansion of lattice volume and vdW layers and strong spin–phonon coupling effects, caused by formation of the long-range ferromagnetic order in the vdW material CrBr3. The neutron and X-ray diffraction measurements revealed anomalous temperature variation of lattice parameters and interatomic distances and angles in the vicinity of Curie temperature (T C). A pronounced rise of the frequencies of the most of the observed vibrational modes and unusual reversal broadening of their full widths at half maximum below T C was found from Raman spectroscopy measurements.
url https://doi.org/10.1038/s41535-021-00318-5
work_keys_str_mv AT dpkozlenko spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
AT onlis spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
AT sekichanov spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
AT evlukin spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
AT nmbelozerova spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
AT bnsavenko spininducednegativethermalexpansionandspinphononcouplinginvanderwaalsmaterialcrbr3
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