Y<sub>x</sub>Al<sub>1−x</sub>N thin films

Agnė Žukauskaitė; Christopher Tholander; Justinas Pališaitis; Per O. Å. Persson; Vanya Darakchieva; N. Ben Sédrine; Ferenc Tasnádi; Björn Alling; Jens Birch; Lars Hultman

doi:10.1088/0022-3727/45/42/422001

JOURNAL ARTICLE

Y_xAl_1−xN thin films

Agnė Žukauskaitė Christopher Tholander Justinas Pališaitis Per O. Å. Persson Vanya Darakchieva N. Ben Sédrine Ferenc Tasnádi Björn Alling Jens Birch Lars Hultman

Year: 2012 Journal: Journal of Physics D Applied Physics Vol: 45 (42)Pages: 422001-422001 Publisher: Institute of Physics

DOI: 10.1088/0022-3727/45/42/422001

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Abstract

Abstract Reactive magnetron sputtering was used to deposit Y x Al 1− x N thin films, 0 ⩽ x ⩽ 0.22, onto Al 2 O 3 (0 0 0 1) and Si(1 0 0) substrates. X-ray diffraction and analytical electron microscopy show that the films are solid solutions. Lattice constants increase with Y concentration, in agreement with ab initio calculations. Spectroscopic ellipsometry measurements reveal a band gap decrease from 6.2 eV ( x = 0) down to 4.5 eV ( x = 0.22). Theoretical investigations within the special quasirandom structure approach show that the wurtzite structure has the lowest mixing enthalpy for 0 ⩽ x ⩽ 0.75.

Keywords:

Wurtzite crystal structure Thin film Lattice constant Materials science Enthalpy Crystallography Band gap Diffraction Sputter deposition Analytical Chemistry (journal) Ab initio quantum chemistry methods Ab initio Sputtering Chemistry Nanotechnology Physics Thermodynamics Optics Molecule

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Metal and Thin Film Mechanics

Physical Sciences → Engineering → Mechanics of Materials

Acoustic Wave Resonator Technologies

Physical Sciences → Engineering → Biomedical Engineering

GaN-based semiconductor devices and materials

Physical Sciences → Physics and Astronomy → Condensed Matter Physics

Y_xAl_1−xN thin films

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