摘要:
Disclosed is a semiconductor device comprising a substrate, an insulating film formed above the substrate and containing a metal, Si, N and O, the insulating film containing metal-N bonds larger than the sum total of metal-metal bonds and metal-Si bonds, and an electrode formed above the insulating film.
摘要:
Disclosed is a semiconductor device comprising a substrate, an insulating film formed above the substrate and containing a metal, Si, N and O, the insulating film containing metal-N bonds larger than the sum total of metal-metal bonds and metal-Si bonds, and an electrode formed above the insulating film.
摘要:
Disclosed is a semiconductor device comprising a substrate, an insulating film formed above the substrate and containing a metal, Si, N and O, the insulating film containing metal-N bonds larger than the sum total of metal-metal bonds and metal-Si bonds, and an electrode formed above the insulating film.
摘要:
Disclosed is a semiconductor device comprising a substrate, an insulating film formed above the substrate and containing a metal, Si, N and O, the insulating film containing metal-N bonds larger than the sum total of metal-metal bonds and metal-Si bonds, and an electrode formed above the insulating film.
摘要:
Disclosed is a semiconductor device comprising a substrate, an insulating film formed above the substrate and containing a metal, Si, N and O, the insulating film containing metal-N bonds larger than the sum total of metal-metal bonds and metal-Si bonds, and an electrode formed above the insulating film.
摘要:
A semiconductor device can be manufactured which has a low resistance, and device characteristics of which do not vary. The semiconductor device includes a silicon layer, a gate dielectric film formed on the silicon layer, a gate electrode formed on the gate dielectric film and including a nitrided metal silicide layer which is partially crystallized, and source and drain regions formed in a surface region of the silicon layer at both sides of the gate electrode.
摘要:
A semiconductor device can be manufactured which has a low resistance, and device characteristics of which do not vary. The semiconductor device includes a silicon layer, a gate dielectric film formed on the silicon layer, a gate electrode formed on the gate dielectric film and including a nitrided metal silicide layer which is partially crystallized, and source and drain regions formed in a surface region of the silicon layer at both sides of the gate electrode.
摘要:
A semiconductor device can be manufactured which has a low resistance, and device characteristics of which do not vary. The semiconductor device includes a silicon layer, a gate dielectric film formed on the silicon layer, a gate electrode formed on the gate dielectric film and including a nitrided metal silicide layer which is partially crystallized, and source and drain regions formed in a surface region of the silicon layer at both sides of the gate electrode.
摘要:
A semiconductor device can be manufactured which has a low resistance, and device characteristics of which do not vary. The semiconductor device includes a silicon layer, a gate dielectric film formed on the silicon layer, a gate electrode formed on the gate dielectric film and including a nitrided metal silicide layer which is partially crystallized, and source and drain regions formed in a surface region of the silicon layer at both sides of the gate electrode.
摘要:
A complementary semiconductor device includes a semiconductor substrate, a first semiconductor region formed on a surface of the semiconductor substrate, a second semiconductor region formed on the surface of the semiconductor substrate apart from the first semiconductor region, an n-MIS transistor having a first gate insulating film including La and Al, formed on the first semiconductor region, and a first gate electrode formed on the gate insulating film, and a p-MIS transistor having a second gate insulating film including La and Al, formed on the second semiconductor region, and a second gate electrode formed on the gate insulating film, an atomic density ratio Al/La in the second gate insulating film being larger than an atomic density ratio Al/La in the first gate insulating film.