標題: | 不同的閘極微結構對於P型複晶閘極P型金氧半電容的硼穿透效應之研究 Boron Penetration in Different Gate Microstructures of P+ Poly- Gate PMOS Capacitors |
作者: | 阮桂棋 Kuei-Chi Juan 張俊彥 Chun-Yen Chang 電子研究所 |
關鍵字: | 多晶矽;Amorphous-Si |
公開日期: | 1993 |
摘要: | P型閘極P型金氧半元件中之硼擴散至氧化層效應,可以用多晶矽閘極予以 抑制.除此之外,在多晶矽閘極結構中的界面,可以進一步提高硼穿透所需 克服的位能障.應用多晶矽於閘極的上層,顯示出比較小的臨界電壓平移 值,較小的電子受陷速率,比較平滑的閘極表面形態和較大的崩潰電荷.在 多晶矽沉積後加上熱回火,硼穿透效應和氧化層品質可以同時達到改善的 目的. The effect of boron diffusion through the thin oxide in p+- gate PMOS devices can be suppressed by using an amorphous-Si gate. In addition, the interface in amorphous-Si gate structure can further increase the barrier for boron penetration. The use of amorphous-Si as the upper-layer gate exhibits a smaller flatband voltage shift, a less electron trapping rate, a more smooth gate surface morphology and a larger charge-to- breakdown. By thermal annealing after amorphous-Si deposition, an improvement both in boron penetration and gate oxide quality can be achieved simultaneously. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#NT820430056 http://hdl.handle.net/11536/58056 |
顯示於類別: | 畢業論文 |