Title :
Pulse-time-modulated plasma etching for high performance polysilicon patterning on thin gate oxides
Author :
Ohtake, Hiroto ; Samukawa, Seiji ; Noguchi, Ko ; Iida, Hidekazu ; Sato, Akira ; Qian, Xue-Yu
Author_Institution :
NEC Corp., Tsukuba, Japan
Abstract :
This paper reports a high performance gate electrode patterning technology which uses a HBr-Cl2-O2 gas mixture in a pulse-time-modulated inductively-coupled plasma (ICP) etcher. We observed that when the plasma is cycled on and off at a rate of a few tens of microseconds, the deposition and charging on the substrate surface can be precisely controlled. As a result, plasma etching can be performed with no topography-dependent charging, no gate oxide trenching, and with extremely high resist and gate oxide selectivities. These results are also obtainable with modifications to conventional etch systems
Keywords :
ULSI; dielectric thin films; electrodes; elemental semiconductors; integrated circuit manufacture; integrated circuit technology; silicon; sputter etching; surface charging; surface chemistry; HBr-Cl2-O2; HBr-Cl2-O2 gas mixture; Si-SiO2; etch system modification; gate electrode patterning technology; gate oxide selectivity; gate oxide trenching; plasma etching; plasma on/off cycling; polysilicon patterning; pulse-time-modulated ICP etcher; pulse-time-modulated inductively-coupled plasma etcher; pulse-time-modulated plasma etching; resist selectivity; substrate surface charging; substrate surface deposition; thin gate oxides; topography-dependent charging; Electrodes; Electrons; Etching; Plasma applications; Plasma materials processing; Plasma temperature; Plasma waves; Pulse modulation; Resists; Ultra large scale integration;
Conference_Titel :
Plasma Process-Induced Damage, 1999 4th International Symposium on
Conference_Location :
Monterey, CA
Print_ISBN :
0-9651577-3-3
DOI :
10.1109/PPID.1999.798803
