Separate evaluation of interface and oxide hole traps in SiO<sub>2</sub>/GaN MOS structures with below- and above-gap light excitation
Takuma Kobayashi, Kazuki Tomigahara, Mikito Nozaki, Takayoshi Shimura, Heiji Watanabe
Abstract
Abstract Understanding the traps in metal-oxide-semiconductor (MOS) structures is crucial in the fabrication of MOS transistors with high performance and reliability. In this study, we evaluated the hole traps in SiO 2 /GaN MOS structures through photo-assisted capacitance-voltage measurements. Below- and above-gap light was used to distinguish between the contributions of fast interface and slow oxide hole traps. While annealing in oxygen is effective in reducing the oxide hole traps, a high density of hole traps exceeding 10 12 cm −2 eV −1 remains at the interface. Although these traps are donor-type and thus hidden in n-type MOS structures, they could impair the switching performance of GaN MOS transistors.