摘要
The comparative study of epitaxial 380-run-thick p-Al0.091 Ga0.909 N materials without and with special surface chemical treatment is systematically carried out. After the treatment process, the deep level luminous peak in the 10 K photoluminescence spectrum is eliminated due to the decrease of surface nitrogen vacancy VN related defective sites, while the surface root-mean-square roughness in atomic force microscopy measurement is decreased from 0.395nm to 0.229nm by such a surface preparation method. Furthermore, the performance of surface contact with Ni/Au bilayer metal fihns is obviously improved with the reduction of the Schottky barrier height of 55meV. The x-ray photoelectron spectroscopy (XPS) results show a notable surface element content change after the treatment which is considered to be the cause of the above-mentioned surface characteristics improvement.
The comparative study of epitaxial 380-run-thick p-Al0.091 Ga0.909 N materials without and with special surface chemical treatment is systematically carried out. After the treatment process, the deep level luminous peak in the 10 K photoluminescence spectrum is eliminated due to the decrease of surface nitrogen vacancy VN related defective sites, while the surface root-mean-square roughness in atomic force microscopy measurement is decreased from 0.395nm to 0.229nm by such a surface preparation method. Furthermore, the performance of surface contact with Ni/Au bilayer metal fihns is obviously improved with the reduction of the Schottky barrier height of 55meV. The x-ray photoelectron spectroscopy (XPS) results show a notable surface element content change after the treatment which is considered to be the cause of the above-mentioned surface characteristics improvement.
基金
Supported by the National Key Basic Research Special Foundation of China under Grant No T(32000036601, the National High Technology Program of China under Grant Nos 2001AA313130 and 2004AA31G060, the National Natural Science Foundation of China under Crant Nos 60244001 and 60390074, and the Beijing Science and Teclnology Plan (D04040040321).
