摘要:
A method includes forming a gate stack over a semiconductor substrate, and forming a first silicon germanium (SiGe) region in the semiconductor substrate and adjacent the gate stack. The first SiGe region has a first atomic percentage of germanium to germanium and silicon. A second SiGe region is formed over the first SiGe region. The second SiGe region has a second atomic percentage of germanium to germanium and silicon. The second atomic percentage is lower than the first atomic percentage, wherein the first and the second SiGe regions form a source/drain stressor of a metal-oxide-semiconductor (MOS) device.
摘要:
A semiconductor structure and methods for forming the same are provided. The semiconductor structure includes a semiconductor substrate; a gate stack on the semiconductor substrate; a SiGe region in the semiconductor substrate and adjacent the gate stack, wherein the SiGe region has a first atomic percentage of germanium to germanium and silicon; and a silicide region over the SiGe region. The silicide region has a second atomic percentage of germanium to germanium and silicon. The second atomic percentage is substantially lower than the first atomic percentage.
摘要:
A method includes forming a gate stack over a semiconductor substrate, and forming a first silicon germanium (SiGe) region in the semiconductor substrate and adjacent the gate stack. The first SiGe region has a first atomic percentage of germanium to germanium and silicon. A second SiGe region is formed over the first SiGe region. The second SiGe region has a second atomic percentage of germanium to germanium and silicon. The second atomic percentage is lower than the first atomic percentage, wherein the first and the second SiGe regions form a source/drain stressor of a metal-oxide-semiconductor (MOS) device.
摘要:
A semiconductor structure and methods for forming the same are provided. The semiconductor structure includes a semiconductor substrate; a gate stack on the semiconductor substrate; a SiGe region in the semiconductor substrate and adjacent the gate stack, wherein the SiGe region has a first atomic percentage of germanium to germanium and silicon; and a silicide region over the SiGe region. The silicide region has a second atomic percentage of germanium to germanium and silicon. The second atomic percentage is substantially lower than the first atomic percentage.
摘要:
Semiconductor devices, having dual silicides, include a first fin, having N-type impurities, and a second fin, having P-type impurities, on a substrate. A first gate electrode and a first source/drain area are on the first fin. A second gate electrode and a second source/drain area are on the second fin. An etch stop layer is on the first source/drain area and the second source/drain area. An insulating layer is on the etch stop layer. A first plug connected to the first source/drain area and a second plug connected to the second source/drain area are formed through the insulating layer and the etch stop layer. A first metal silicide layer is in the first source/drain area. A second metal silicide layer having a material different from the first metal silicide layer and having a thickness smaller than the first metal silicide layer is in the second source/drain area.
摘要:
A photoresist with adjustable polarized light response and a photolithography process using the photoresist. The photoresist and the photolithography process are suitable for use in an exposure optical system with a high numerical aperture. The photoresist includes a photosensitive polymer that can absorb the exposure light source to generate an optical reaction. The photosensitive polymer can also be oriented along a direction of an electric field or a magnetic field. The response for the photosensitive upon a polarized light is determined by an angle between the predetermined direction and the polarized light. In addition, the photolithography process adjusts the orientation of the photosensitive polymer, so that the P-polarized light has a weaker response than that of the S-polarized light to compensate for the larger transmission coefficient of the P-polarized light with a high numerical aperture, so as to prevent the photoresist pattern deformation.
摘要:
A photoresist layer comprising an optically active component is provided, so that after an incident linearly polarized light penetrates the photoresist layer, the intensity ratio of an S wave polarization and a P wave polarization divided from the linearly polarized light is effectively 1:1 so improving astigmatism.