Stress evolution in different growth mechanism of GaN grown by Na-flux method
Zhiwei Si, Zongliang Liu, Hong Gu, Yujiao Ren, Xiaoming Dong, Xiaodong Gao, Jianfeng Wang, Ke Xu
Abstract
Abstract The study found that homoepitaxial Na-flux GaN has a large stress at the interface, and the stress is released to a certain extent within 50 μ m in the growth direction of the Na-flux GaN. After passing through the columnar growth region, the Na-flux GaN tends to a stress-free state finally. The columnar growth mode is produced by GaN island growth, the islands nucleate and coalescence to produce tensile stress. The Na-flux GaN undergoes a columnar growth to generate tensile stress, which offsets the residual compressive stress at the interface, which is conducive to stress release.
Topics & Concepts
Coalescence (physics)Materials scienceNucleationStress (linguistics)Residual stressFlux (metallurgy)Ultimate tensile strengthIsland growthComposite materialChemistryMetallurgyEpitaxyLayer (electronics)LinguisticsOrganic chemistryPhilosophyPhysicsAstrobiologyGaN-based semiconductor devices and materialsZnO doping and propertiesGa2O3 and related materials