J. L. Hollander scite author profile

X-ray diffraction (XRD) is widely used for the rapid evaluation of the structural quality of thin films. In order to determine how defect densities relate to XRD data, we investigated a series of heteroepitaxial nonpolar a-plane GaN films with different densities of dislocations and basal plane stacking faults (determined by transmission electron microscopy). Factors influencing XRD data include surface roughness effects, limited lateral coherence lengths, lateral microstrain, mosaic tilt, and wafer curvature, in addition to the defects present. No direct correlation between defect densities and any measured XRD parameter was found. However, the structural imperfections dominating XRD data can be identified by specific analysis of each individual broadening factor. This reductive approach permits full explanation of the in-plane rotational anisotropy of symmetric ω-scan widths for both a-plane and m-plane films: in these samples, mosaic tilt is the dominant factor.

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Improvements in a-plane GaN crystal quality by a two-step growth process

Hollander

Kappers

McAleese

et al. 2008

103

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Nonpolar (112¯0) a-plane GaN films have been grown by metal-organic vapor deposition on r-plane (11¯02) sapphire. Lateral growth is favored using a low V:III ratio resulting in films with a smooth surface, while pitted films are grown at a high V:III ratio indicating preferential on-axis growth. High-resolution x-ray diffraction analysis of both film types showed a strong anisotropy in the peak width of the symmetric omega rocking curve with respect to the in-plane orientation, phi. In-plane isotropic behavior of crystallinity with overall reduced omega full width at half maximum values was achieved when the growth was initiated at a high V:III ratio before reducing the V:III ratio for film coalescence. An improvement of crystal quality through initial surface roughening was equally realized by the incorporation of partial-coverage SiNx interlayers.

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Growth and characterisation of semi-polar InGaN/GaN MQW structures

Kappers

Hollander

McAleese

et al. 2007

Journal of Crystal Growth

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Assessment of defect reduction methods for nonpolar a-plane GaN grown on r-plane sapphire

Johnston

Kappers

Moram

et al. 2009

Journal of Crystal Growth

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Optical properties of GaN/AlGaN quantum wells grown on nonpolar substrates

Badcock

Dawson

Kappers

et al. 2008

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In this paper we report on the optical properties of a series of GaN/AlGaN multiple quantum well structures grown on a-plane (112¯0) GaN, which had been deposited on r-plane (11¯02) sapphire substrates, compared to a reference GaN template of the same orientation. The low temperature photoluminescence spectrum of the template layer is dominated by two emission bands, which we attribute to recombination involving excitons in the bulk of the layer and electrons and holes trapped at basal-plane stacking faults, designated X1 and X2, respectively. The photoluminescence spectra from the quantum well structures show similar emission bands except that both X1 and X2 shift to higher energy with decreasing quantum well thickness. The shift to higher energy is due to the effects of quantum confinement on carriers trapped at the stacking faults that intersect the quantum wells, as well as those excitons that are localized within the quantum wells. This assignment is based partly on excitation spectroscopy that reveals exciton transitions associated with electrons from the n=1 and n=2 quantum well confined states.

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J. L. Hollander

Understanding x-ray diffraction of nonpolar gallium nitride films

Improvements in a-plane GaN crystal quality by a two-step growth process

Growth and characterisation of semi-polar InGaN/GaN MQW structures

Assessment of defect reduction methods for nonpolar a-plane GaN grown on r-plane sapphire

Optical properties of GaN/AlGaN quantum wells grown on nonpolar substrates

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