在 SOI(Silicon on Insulator)结构硅膜上面生长一层 Si Ge合金 ,采用类似 SOICMOS工艺制作成具有Si Ge沟道的 SOICMOS集成电路。该电路不仅具有 SOICMOS电路的优点 ,而且因为 Si Ge中的载流子迁移率明显高于 Si中载流子的迁移率 ,所以...在 SOI(Silicon on Insulator)结构硅膜上面生长一层 Si Ge合金 ,采用类似 SOICMOS工艺制作成具有Si Ge沟道的 SOICMOS集成电路。该电路不仅具有 SOICMOS电路的优点 ,而且因为 Si Ge中的载流子迁移率明显高于 Si中载流子的迁移率 ,所以提高了电路的速度和驱动能力。另外由于两种极性的 SOI MOSFET都采用 Si Ge沟道 ,就避免了只有 SOIPMOSFET采用 Si Ge沟道带来的选择性生长 Si Ge层的麻烦。采用二维工艺模拟得到了器件的结构 ,并以此结构参数进行了器件模拟。模拟结果表明 ,N沟和 P沟两种 MOSFET的驱动电流都有所增加 。展开更多
Based on theoretical analysis and computer-aided simulation, optimized design principles for Si/SiGe PMOSFET are given in this paper, which include choice of gate materials,determination of germanium percentage and pr...Based on theoretical analysis and computer-aided simulation, optimized design principles for Si/SiGe PMOSFET are given in this paper, which include choice of gate materials,determination of germanium percentage and profile in SiGe channel, optimization of thickness of dioxide and silicon cap layer, and adjustment of threshold voltage. In the light of these principles,a SiGe PMOSFET is designed and fabricated successfully. Measurement indicates that the SiGe PMOSFET's (L=2μm) transconductance is 45 mS/mm (300K) and 92mS/mm (77K), while that is 33 mS/mm (300K) and 39mS/mm (77K) in Si PMOSFET with the same structure.展开更多
文摘在 SOI(Silicon on Insulator)结构硅膜上面生长一层 Si Ge合金 ,采用类似 SOICMOS工艺制作成具有Si Ge沟道的 SOICMOS集成电路。该电路不仅具有 SOICMOS电路的优点 ,而且因为 Si Ge中的载流子迁移率明显高于 Si中载流子的迁移率 ,所以提高了电路的速度和驱动能力。另外由于两种极性的 SOI MOSFET都采用 Si Ge沟道 ,就避免了只有 SOIPMOSFET采用 Si Ge沟道带来的选择性生长 Si Ge层的麻烦。采用二维工艺模拟得到了器件的结构 ,并以此结构参数进行了器件模拟。模拟结果表明 ,N沟和 P沟两种 MOSFET的驱动电流都有所增加 。
基金Supported by National Key Laboratory Fund (99Js09 5.1)
文摘Based on theoretical analysis and computer-aided simulation, optimized design principles for Si/SiGe PMOSFET are given in this paper, which include choice of gate materials,determination of germanium percentage and profile in SiGe channel, optimization of thickness of dioxide and silicon cap layer, and adjustment of threshold voltage. In the light of these principles,a SiGe PMOSFET is designed and fabricated successfully. Measurement indicates that the SiGe PMOSFET's (L=2μm) transconductance is 45 mS/mm (300K) and 92mS/mm (77K), while that is 33 mS/mm (300K) and 39mS/mm (77K) in Si PMOSFET with the same structure.
