Photoluminescence study of MgGa2O4 spinel oxide films grown by molecular beam epitaxy

Photoluminescence study of MgGa2O4 spinel oxide films grown by molecular beam epitaxy

As a promising ultrawide bandgap oxide semiconductor material in the spinel family, magnesium gallate (MgGa2O4) exhibits great potential applications in power electronics, transparent electronics, and deep ultraviolet optoelectronics. However, few studies reveal its photoluminescence (PL) properties...

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Veröffentlicht in:Applied physics letters 2024-08, Vol.125 (7)
Hauptverfasser: Yang, Tianchen, Shou, Chengyun, Tran, Jason, Almujtabi, Abdullah, Mahmud, Quazi Sanjid, Zhu, Edward, Li, Yuan, Wei, Peng, Liu, Jianlin
Format: Artikel
Sprache:eng
Schlagworte:
Diffraction patterns
Electronics
Energy gap
Epitaxial growth
Gallium
Magnesium
Molecular beam epitaxy
Optoelectronics
Oxide coatings
Oxygen plasma
Photoluminescence
Semiconductor materials
Spinel
Temperature dependence
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Zusammenfassung:As a promising ultrawide bandgap oxide semiconductor material in the spinel family, magnesium gallate (MgGa2O4) exhibits great potential applications in power electronics, transparent electronics, and deep ultraviolet optoelectronics. However, few studies reveal its photoluminescence (PL) properties. In this work, MgGa2O4 films were grown by using oxygen plasma assisted molecular beam epitaxy. The bandgap of MgGa2O4 spinel films is determined to be around 5.4–5.5 eV, and all samples have transmittance over 90% in the visible spectral range. X-ray diffraction patterns confirmed that the spinel films were grown highly along ⟨111⟩ oriented. Power and temperature dependent PL studies were investigated. Optical transitions involving self-trapped hole, oxygen vacancy deep donor, and magnesium atom on gallium site deep acceptor levels were revealed.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0218242