Magneto-optical response of the magnetic semiconductors EUCd2X2 (X = P, As, SB)

Magneto-optical response of the magnetic semiconductors EUCd2X2 (X = P, As, SB)

n this study, we identify EuCd2X2 (for X = P, As, Sb) as a series of magnetic semiconductors. We examine how the band gap of the series responds to X changing from phosphorus (P), to arsenic (As), and finally antimony (Sb). We characterize the samples using electronic transport and magnetization mea...

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Veröffentlicht in:Physical review. B 2024-11, Vol.110 (20)
Hauptverfasser: Nasrallah, S., Santos-Cottin, D., Le Mardelé, F., Mohelský, I., Wyzula, J., Akšamović, L., Sačer, P., Barrett, J. H., Galloway, W., Rigaux, K., Guo, F., Puppin, M., Živković, I., Dil, J. H., Novak, M., Homes, C. C., Orlita, M., Barišić, N., Akrap, Ana
Format: Artikel
Sprache:eng
Schlagworte:
angle-resolved photoemission spectroscopy
electrical properties
magnetic semiconductors
magnetism
magneto-optical effect
MATERIALS SCIENCE
optical spectroscopy
resistivity measurements
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Zusammenfassung:n this study, we identify EuCd2X2 (for X = P, As, Sb) as a series of magnetic semiconductors. We examine how the band gap of the series responds to X changing from phosphorus (P), to arsenic (As), and finally antimony (Sb). We characterize the samples using electronic transport and magnetization measurements. Based on infrared spectroscopy, we find that the band gap reduces progressively from 1.23 eV in EuCd2P2, to 0.77 eV in EuCd2As2, and finally 0.52 eV in EuCd2Sb2. In a magnetic field, all three systems show a strong response and their band gaps decrease at 4 K. This decrease is non-monotonic as we change X. It is strongest in the phosphorous compound and weakest in the antimony compound. For all the three compositions, EuCd2X2 remains a semiconductor up to the highest magnetic field applied (16 T).
ISSN:2469-9950
DOI:10.1103/PhysRevB.110.L201201