【International Papers】Melt-grown Semi-insulating Mn:β-Ga₂O₃ Single Crystals Exhibiting Unique Visible Absorptions and Luminescence

Researchers from the Washington State University have published a dissertation titled " Melt-grown semi-insulating Mn:β-Ga₂O₃ single crystals exhibiting unique visible absorptions and luminescence " in  journal of vacuum science & technology A .

Abstract

Several acceptor dopants have been explored in β-Ga₂O₃ to produce semi-insulating substrates and epitaxial films. Fe and Mg make up the majority of research thus far; however, other transition metals provide potential alternatives for optimized performance. β-Ga₂O₃ bulk single crystals were grown by the Czochralski and vertical gradient freeze methods with a nominal dopant concentration of 0.25 at. % Mn. Ultraviolet-visible-near infrared spectroscopy and photoluminescence revealed polarization- and orientation-dependent optical absorptions (pleochroism) coupled with an orange luminescence. All samples were electrically insulating, on the order of 10⁹–10¹¹ ohm cm at room temperature, indicative of acceptor doping. Actual dopant concentrations of the intentionally doped transition metal and background impurities were determined via glow discharge mass spectrometry, indicating the macroscale segregation behavior. High-temperature resistivity measurements indicated an experimental acceptor level of 1.7 ± 0.2 eV. Hydrogenation of samples resulted in an increase in the orange luminescence and O–H stretching modes observable in the infrared spectrum. Density functional theory calculations were performed to determine the likely site-occupancy and acceptor level of Mn in the bandgap.

FIG. 1. Mn content in the crystal measured as a function of unitless crystallization ratio along with calculated values from the Scheil–Gulliver relation.

FIG. 2. (a) Polarized UV-Vis absorption and photographs of representative crystal coloration in arbitrary units (a.u.), (b) polarized PL of the 635 nm emission (excitation wavelength 415 nm) in counts per second (CPS), and (c) and (d) orientation-dependent PL intensity contour map.

Paper Link：https://doi.org/10.1116/6.0003212