Title :
High-integrity, ultra-thin gate oxides for advanced ULSI
Author :
Hirose, Masataka
Author_Institution :
Res. Center for Integrated Syst., Hiroshima Univ., Japan
Abstract :
Uniformity control and high reliability of ultra-thin gate oxides are important issues for giga bit integration. We have quantitatively analyzed the measured tunneling current through 3.0-6.0 nm thick gate oxides and found excellent agreement between the measured and calculated current. The tunneling effective mass obtained as the only fitting parameter remains almost constant regardless of the oxide thickness. The charge to breakdown of the gate oxide is higher than 1.0 C/cm2 and significantly increased to about 100 C/cm2 for a 3.0 nm thick oxide. The tunneling current density distribution on the wafer is extremely homogeneous, indicating the excellent uniformity of oxides grown on the hydrogen-terminated, flat Si(100) wafers
Keywords :
MIS devices; ULSI; current density; dielectric thin films; electric breakdown; integrated circuit reliability; oxidation; semiconductor diodes; tunnelling; 3 to 6 nm; H-terminated flat Si(100) wafers; LOCOS structures; MOS diodes; Si; Si-SiO2; advanced ULSI; charge to breakdown; giga bit integration; high reliability; oxide thickness; oxide uniformity; tunneling current; tunneling current density distribution; tunneling effective mass; ultra-thin gate oxides; uniformity control; wafer surface morphology; Atomic measurements; Current measurement; Electric breakdown; Rough surfaces; Surface morphology; Surface roughness; Surface treatment; Thickness measurement; Tunneling; Ultra large scale integration;
Conference_Titel :
Solid-State and Integrated Circuit Technology, 1995 4th International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-3062-5
DOI :
10.1109/ICSICT.1995.499276
