Abstract:Currently, Fe doping in the ~10 18 cm-3 range is the most widely-available method for producing semi-insulating single crystalline-Ga 2 O 3 substrates. Red luminescence features have been reported from multiple types of Ga 2 O 3 samples including Fe-doped-Ga 2 O 3 , and attributed to Fe or N O. Herein, however, we demonstrate that the high-intensity red luminescence from Fe-doped β-Ga 2 O 3 commercial substrates consisting of two sharp peaks at 689 nm and 697 nm superimposed on a broader peak centered at 710 n… Show more
“…It was suggested that the internal transitions between the 2 E and 4 A 2 states of Cr 3þ give rise to two sharp emission (or absorption) lines at around 1.78 and 1.80 eV at room temperature (RT), which were labeled as R1 and R2 lines. 18,19,[22][23][24][25][26][27][28][29][30] This conclusion was based 19,22,23,25 on a similarity of the transition energies with the internal transitions of Cr 3þ in Al 2 O 3 . [31][32][33] They were further supported by the analysis of higher-lying excited states detected in absorption 19,28 and emission 18,22,[24][25][26][27][28] spectra of Cr-doped b-Ga 2 O 3 , as well as photoluminescence excitation spectra of the R lines 24,26,28 using the Tanabe-Sugano diagrams.…”
“…It was suggested that the internal transitions between the 2 E and 4 A 2 states of Cr 3þ give rise to two sharp emission (or absorption) lines at around 1.78 and 1.80 eV at room temperature (RT), which were labeled as R1 and R2 lines. 18,19,[22][23][24][25][26][27][28][29][30] This conclusion was based 19,22,23,25 on a similarity of the transition energies with the internal transitions of Cr 3þ in Al 2 O 3 . [31][32][33] They were further supported by the analysis of higher-lying excited states detected in absorption 19,28 and emission 18,22,[24][25][26][27][28] spectra of Cr-doped b-Ga 2 O 3 , as well as photoluminescence excitation spectra of the R lines 24,26,28 using the Tanabe-Sugano diagrams.…”
“…Polarization dependence of emission is seen below the bandgap for all three samples. The observed red emission starting around 700 nm (1.77 eV) is due to the Fe-doped β-Ga 2 O 3 substrate on which the Si-doped β-Ga 2 O 3 films were grown 27 , 28 . Figure 1 Polarized photoluminescence of β-Ga 2 O 3 grown on (010) Fe-doped β-Ga 2 O 3 excited at 267 nm (4.64 eV).…”
In this work, a systematic photoluminescence (PL) study on three series of gallium oxide/aluminum gallium oxide films and bulk single crystals is performed including comparing doping, epitaxial substrates, and aluminum concentration. It is observed that blue/green emission intensity strongly correlates with extended structural defects rather than the point defects frequently assumed. Bulk crystals or Si-doped films homoepitaxially grown on (010) β-Ga2O3 yield an intense dominant UV emission, while samples with extended structural defects, such as gallium oxide films grown on either (-201) β-Ga2O3 or sapphire, as well as thick aluminum gallium oxide films grown on either (010) β-Ga2O3 or sapphire, all show a very broad PL spectrum with intense dominant blue/green emission. PL differences between samples and the possible causes of these differences are analyzed. This work expands previous reports that have so far attributed blue and green emissions to point defects and shows that in the case of thin films, extended defects might have a prominent role in emission properties.
“…The origin of the red emission is quite ambiguous, and the literature provides three plausible explanations involving doping by transition metals or rare earth metals [ 10–14,19–21 ] or by nitrogen. [ 22,23 ] Figure 1b shows the CL spectra recorded in the region of 700 nm to provide more details in the near‐IR region of the spectrum.…”
Section: Resultsmentioning
confidence: 99%
“…This raises an important question on the origin of these transitions, which may well be due to other transition‐metal impurities such as Cr. [ 10,24 ] It is well known that even very low concentrations, of the order of ppm, of Cr can result in strong luminescence. [ 28,29 ]…”
Section: Resultsmentioning
confidence: 99%
“…The optical properties of β ‐ Ga 2 O 3 grown by various methods with different dopants have been widely reported, [ 5–9 ] primarily for emission in the UV and blue regions of the visible spectrum. However, there are only a few reports [ 10–14 ] on emission in the red spectral region due to transition metals, which is the focus of this work. We discuss red emission in relation to various dopants in β‐Ga 2 O 3 .…”
The spectroscopic techniques of cathodoluminescence (CL) and photoluminescence (PL) are used to study the origin of red emission in β‐Ga2O3 grown using the edge‐defined film‐fed grown (EFG) method and hydride vapor phase epitaxy. Room‐temperature CL shows red emission peaks from samples doped with Fe, Sn, and Si and from unintentionally doped (UID) samples. Narrow emission lines around 690 nm are seen strongly in the Fe and UID samples. Temperature‐dependent PL analysis of the two prominent red emission lines reveals properties similar to the R lines in sapphire for all samples but with different levels of emission intensities. These lines are attributed to Cr3+ ionic transitions rather than Fe3+, as reported previously. The most likely origin of the unintentional Cr incorporation is the source material used in the EFG method.
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