TY - JOUR
T1 - Electronic Band Structure Changes across the Antiferromagnetic Phase Transition of Exfoliated MnPS3 Flakes Probed by μ-ARPES
AU - Strasdas, Jeff
AU - Pestka, Benjamin
AU - Rybak, Miłosz
AU - Budniak, Adam K.
AU - Leuth, Niklas
AU - Boban, Honey
AU - Feyer, Vitaliy
AU - Cojocariu, Iulia
AU - Baranowski, Daniel
AU - Avila, José
AU - Dudin, Pavel
AU - Bostwick, Aaron
AU - Jozwiak, Chris
AU - Rotenberg, Eli
AU - Autieri, Carmine
AU - Amouyal, Yaron
AU - Plucinski, Lukasz
AU - Lifshitz, Efrat
AU - Birowska, Magdalena
AU - Morgenstern, Markus
N1 - Publisher Copyright:
© 2023 American Chemical Society
PY - 2023/11/22
Y1 - 2023/11/22
N2 - Exfoliated magnetic 2D materials enable versatile tuning of magnetization, e.g., by gating or providing proximity-induced exchange interaction. However, their electronic band structure after exfoliation has not been probed, presumably due to their photochemical sensitivity. Here, we provide micrometer-scale angle-resolved photoelectron spectroscopy of the exfoliated intralayer antiferromagnet MnPS3 above and below the Néel temperature down to one monolayer. Favorable comparison with density functional theory calculations enables identifying the orbital character of the observed bands. Consistently, we find pronounced changes across the Néel temperature for bands consisting of Mn 3d and 3p levels of adjacent S atoms. The deduced orbital mixture indicates that the superexchange is relevant for the magnetic interaction. There are only minor changes between monolayer and thicker films, demonstrating the predominant 2D character of MnPS3. The novel access is transferable to other MPX3 materials (M: transition metal, P: phosphorus, X: chalcogenide), providing several antiferromagnetic arrangements.
AB - Exfoliated magnetic 2D materials enable versatile tuning of magnetization, e.g., by gating or providing proximity-induced exchange interaction. However, their electronic band structure after exfoliation has not been probed, presumably due to their photochemical sensitivity. Here, we provide micrometer-scale angle-resolved photoelectron spectroscopy of the exfoliated intralayer antiferromagnet MnPS3 above and below the Néel temperature down to one monolayer. Favorable comparison with density functional theory calculations enables identifying the orbital character of the observed bands. Consistently, we find pronounced changes across the Néel temperature for bands consisting of Mn 3d and 3p levels of adjacent S atoms. The deduced orbital mixture indicates that the superexchange is relevant for the magnetic interaction. There are only minor changes between monolayer and thicker films, demonstrating the predominant 2D character of MnPS3. The novel access is transferable to other MPX3 materials (M: transition metal, P: phosphorus, X: chalcogenide), providing several antiferromagnetic arrangements.
KW - angular resolved photoelectron spectroscopy
KW - density functional theory
KW - layered magnetism
KW - magnetic 2D materials
KW - μ-ARPES
UR - http://www.scopus.com/inward/record.url?scp=85177052458&partnerID=8YFLogxK
U2 - 10.1021/acs.nanolett.3c02906
DO - 10.1021/acs.nanolett.3c02906
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C2 - 37922394
AN - SCOPUS:85177052458
SN - 1530-6984
VL - 23
SP - 10342
EP - 10349
JO - Nano Letters
JF - Nano Letters
IS - 22
ER -