Shallow Trench Isolation(STI) is widely used in advanced CMOS technologies. This paper describes a shallow trench isolation for 0.13μm CMOS technologies development which utilizes AMAT Ultima Plus High Density Plasma (HDP) CVD oxide process to fill 0.18μm wide and 0.5μm deep trenches with void free. Through optimizing source/bias RF power, process gas flow and cross section verification, as a result, we got a robust gap-fill recipe with void free
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...
This paper reports an improved method of fabricating ultra deep (40-120??m) and high aspect ratio (m...
Downlotrench fill using chemical vapor deposited (CVD) SiO2 film to achieve void-free gap filling ca...
International audienceA method is proposed to model the high-density plasma chemical vapor depositio...
Réalisées au début du processus de fabrication des circuits intégrés, les tranchées d'isolation perm...
Isolation (STI) gap-fill process shows some filling limitations due to voids formation in the oxide ...
This paper presents a shallow trench isolation technique using plasma etching, LPCVD oxide fill, and...
Shallow trench isolation (STI) planarized with chemical mechanical polishing (CMP) has replaced LOCO...
Achieved at the beginning of the integrated circuits manufacturing, shallow trench isolation permits...
Shallow trench isolation (STI) planarized with chemical mechanical polishing (CMP) has replaced loca...
A high density trench isolated CMOS process has been developed. Circuit designs have been initially ...
Shallow Trench Isolation (STI) holds many advantages to that of its predecessor isolation technology...
As the IC industry progresses through each successive technology node on the ITRS roadmap, to contin...
A silicon trench 2um deep was etched in a PlasmaTherm 2406 RIE tool using an SF6/C02 chemistry with ...
This paper reports an improved method of fabricating ultra deep (40-120 mu m) and high aspect ratio ...
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...
This paper reports an improved method of fabricating ultra deep (40-120??m) and high aspect ratio (m...
Downlotrench fill using chemical vapor deposited (CVD) SiO2 film to achieve void-free gap filling ca...
International audienceA method is proposed to model the high-density plasma chemical vapor depositio...
Réalisées au début du processus de fabrication des circuits intégrés, les tranchées d'isolation perm...
Isolation (STI) gap-fill process shows some filling limitations due to voids formation in the oxide ...
This paper presents a shallow trench isolation technique using plasma etching, LPCVD oxide fill, and...
Shallow trench isolation (STI) planarized with chemical mechanical polishing (CMP) has replaced LOCO...
Achieved at the beginning of the integrated circuits manufacturing, shallow trench isolation permits...
Shallow trench isolation (STI) planarized with chemical mechanical polishing (CMP) has replaced loca...
A high density trench isolated CMOS process has been developed. Circuit designs have been initially ...
Shallow Trench Isolation (STI) holds many advantages to that of its predecessor isolation technology...
As the IC industry progresses through each successive technology node on the ITRS roadmap, to contin...
A silicon trench 2um deep was etched in a PlasmaTherm 2406 RIE tool using an SF6/C02 chemistry with ...
This paper reports an improved method of fabricating ultra deep (40-120 mu m) and high aspect ratio ...
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...
This paper reports an improved method of fabricating ultra deep (40-120??m) and high aspect ratio (m...
Downlotrench fill using chemical vapor deposited (CVD) SiO2 film to achieve void-free gap filling ca...