Atomic-scale Structure of Irradiated GaN compared to Amorphised GaP and GaAs

Date

2006

Authors

Ridgway, Mark C
Everett, Sarah
Glover, Christopher
Kluth, Susan
Kluth, Patrick
Johannessen, Bernt
Hussain, Zohair
Llewellyn, David
Foran, Garry J
Azevedo, G de M

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

We have compared the atomic-scale structure of ion irradiated GaN to that of amorphised GaP and GaAs. While continuous and homogenous amorphised layers were easily achieved in GaP and GaAs, ion irradiation of GaN yielded both structural and chemical inhomogeneities. Transmission electron microscopy revealed GaN crystallites and N2 bubbles were interspersed within an amorphous GaN matrix. The crystallite orientation was random relative to the unirradiated epitaxial structure, suggesting their formation was irradiation-induced, while the crystallite fraction was approximately constant for all ion fluences beyond the amorphisation threshold, consistent with a balance between amorphisation and recrystallisation processes. Extended X-ray absorption fine structure measurements at the Ga K-edge showed short-range order was retained in the amorphous phase for all three binary compounds. For ion irradiated GaN, the stoichiometric imbalance due to N2 bubble formation was not accommodated by Ga-Ga bonding in the amorphous phase or precipitation of metallic Ga but instead by a greater reduction in Ga coordination number.

Description

Keywords

Keywords: Amorphization; Amorphous materials; Crystal orientation; Crystalline materials; Epitaxial growth; Irradiation; Stoichiometry; Transmission electron microscopy; Amorphous; Extended X-ray absorption fine structure (EXAFS); GaAs; GaN; GaP; Ion irradiation; G Amorphous; EXAFS; GaAs; GaN; GaP; Ion irradiation

Citation

Source

Nuclear Instruments and Methods in Physics Research: Section B

Type

Journal article

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2037-12-31