Monoenergetic positron beam study of Si-doped GaAs epilayers grown by low-pressure metalorganic chemical vapor deposition using tertiarybutylarsine

Abstract

Si‐doped GaAs epilayers grown by low‐pressure metalorganic chemical vapor deposition (MOCVD) using tertiarybutylarsine (tBAs) were investigated using a slow positron beam. The concentration of Ga vacancies, V_Ga, generated in GaAs epilayers was increased drastically by heavy Si doping of more than 10¹⁹ cm⁻³, where the deactivation of Si occurred. This result suggests that the deactivation of Si in GaAs is mainly caused by a V_Ga‐related defect, such as a V_Ga‐Si_Ga complex. The V_Ga concentration in the samples grown using tBAs was found to be almost the same as that grown using arsine (AsH₃). On the other hand, the V_Ga concentration in MOCVD‐grown Si‐doped GaAs is lower than that in molecular‐beam‐epitaxy‐grown material for the same Si concentrations. The generation mechanisms of V_Ga were found to be greatly dependent on the growth and/or doping methods, in addition to the Si doping concentration.