1996
DOI: 10.1063/1.362556
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Anisotropic strain relaxation of GaInP epitaxial layers in compression and tension

Abstract: Structural and optical properties of strainrelaxed InAsP/InP heterostructures grown by metalorganic vapor phase epitaxy on InP(001) using tertiarybutylarsine We have investigated the strain relaxation of intentionally lattice mismatched (Ϯ0.5%͒ GaInP layers grown on GaAs substrates by organometallic vapor phase epitaxy. Double axis x-ray diffraction was used to measure the relaxation in these epitaxial layers in perpendicular ͗110͘ directions as a function of thickness. For samples in tension, the difference i… Show more

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Cited by 47 publications
(27 citation statements)
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“…It is well established that the formation kinetics of these two types of dislocations are different, which leads to observed asymmetric strain relaxation along both h110i directions. 39 However, from our study on these TFET structures, the strain relaxation value extracted along [1 10] 38 buffer materials. The symmetric relaxation in these layers indicates that the total length of misfit dislocation in each h110i direction is approximately the same.…”
Section: Strain Relaxation Propertiesmentioning
confidence: 99%
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“…It is well established that the formation kinetics of these two types of dislocations are different, which leads to observed asymmetric strain relaxation along both h110i directions. 39 However, from our study on these TFET structures, the strain relaxation value extracted along [1 10] 38 buffer materials. The symmetric relaxation in these layers indicates that the total length of misfit dislocation in each h110i direction is approximately the same.…”
Section: Strain Relaxation Propertiesmentioning
confidence: 99%
“…In compressively strained III-V layer, an a type dislocation lies in the [1 10] direction. 39 Similarly, a b type dislocation lies in the [110] direction to relieve compressive strain in the epilayer. 39 As a result, for strain relaxation by misfit component of 60 dislocations, relaxation along the [1 10] direction is controlled by the nucleation and glide of b dislocations and relaxation along the [110] direction is controlled by the nucleation and glide of a dislocations, respectively.…”
Section: Strain Relaxation Propertiesmentioning
confidence: 99%
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“…Remarkably, the MDs are completely absent in the ½1 1 0 direction. Asymmetric strain relaxation in dense MD networks is a known phenomenon [19] and has been observed in Ga 1Àx In x P grown on GaAs substrates [16]. However, the density of the MDs in sample B is found to be so small that the strain in the sample is only nominally relaxed, as evidenced by the RSM of Figs.…”
Section: Resultsmentioning
confidence: 82%
“…The strain is tensile in both epilayers of sample B, but the Ga 0:5094 In 0:4906 P layer is less strained than the GaAs layer. 224 RSMs measured from Ga 1Àx In x P epilayers having either large tensile strain ðx ¼ 0:41Þ or large compressive strain ðx ¼ 0:55Þ on GaAs substrates are known to show asymmetricity due to the asymmetric strain relaxation of Ga 1Àx In x P on GaAs [16]. Some differences in the shapes of the X-ray maxima arising from the asymmetric strain is observed in RSMs of Figs.…”
Section: Resultsmentioning
confidence: 99%