位错
宽禁带半导体
材料科学
光电子学
发光二极管
二极管
循环(图论)
凝聚态物理
物理
复合材料
数学
组合数学
作者
Alejandro Quevedo,Feng Wu,Tsung-Yin Tsai,Jacob J. Ewing,Tanay Tak,Srinivas Gandrothula,Stephen H. Gee,Xianqing Li,Shuji Nakamura,Steven P. DenBaars,James S. Speck
摘要
V-defects are morphological defects that typically form on threading dislocations during epitaxial growth of (0001)-oriented GaN layers. A V-defect is a hexagonal pyramid-shaped depression with six {101¯1}-oriented sidewalls. These semipolar sidewalls have a lower polarization barrier than the polarization barriers present between the polar c-plane quantum wells and quantum barriers and can laterally inject carriers directly into quantum wells in GaN-based light emitting diodes (LEDs). This is especially important, as the high polarization field in c-plane GaN is a significant factor in the high forward voltage of GaN LEDs. The optimal V-defect density for efficient lateral carrier injection in a GaN LED (∼109 cm−2) is typically an order of magnitude higher than the threading dislocation density of GaN grown on patterned sapphire substrates (∼108 cm−2). Pure-edge dislocation loops have been known to exist in GaN, and their formation into large V-defects via low-temperature growth with high Si-doping has recently been studied. Here, we develop a method for pure-edge threading dislocation half-loop formation and density control via disilane flow, growth temperature, and thickness of the half-loop generation layer. We also develop a method of forming the threading dislocation half-loops into V-defects of comparable size to those originating from substrate threading dislocations.
科研通智能强力驱动
Strongly Powered by AbleSci AI