摘要:
Threshold voltage of a field effect transistor is successfully adjusted with a smaller dose of an impurity, as compared with a conventional adjustment of the threshold voltage only by doping an impurity into the channel region. A semiconductor device 100 has a silicon substrate 101 and a P-type MOSFET 103 comprising a SiON film 113 formed on the silicon substrate 101, and a polycrystalline silicon film 106. Any one of, or two or more of metals selected from the group consisting of Hf, Zr, Al, La, Pr, Y, Ti, Ta and W are allowed to reside at the interface 115 between the polycrystalline silicon film 106 and the SiON film 113, and concentration of the metal(s) at the interface 115 is adjusted to 5×1013 atoms/cm2 or more and less than 1.4×1015 atoms/cm2.
摘要翻译:与仅通过将杂质掺杂到沟道区域中的阈值电压的常规调节相比,场效应晶体管的阈值电压被成功地用较小剂量的杂质调节。 半导体器件100具有硅衬底101和包括形成在硅衬底101上的SiON膜113的P型MOSFET 103和多晶硅膜106.选自以下的金属中的任何一种或两种以上选自 的Hf,Zr,Al,La,Pr,Y,Ti,Ta和W被放置在多晶硅膜106和SiON膜113之间的界面115处,并且界面115处的金属的浓度 被调整到5×10 13原子/ cm 2以上且小于1.4×10 15原子/ cm 2以上。
摘要:
A semiconductor device 100 comprises a silicon substrate 102, an N-type MOSFET 118 including a high concentration-high dielectric constant film 108b formed on the silicon substrate 102 and a polycrystalline silicon film 114, and a P-type MOSFET 120 including a low concentration-high dielectric constant film 108a and a polycrystalline silicon film 114 formed on the semiconductor substrate 102 to be juxtaposed to the N-type MOSFET 118. The low concentration-high dielectric constant film 108a and the high concentration-high dielectric constant film 108b are composed of a material containing one or more element (s) selected from a group consisting of Hf and Zr. The concentration of the above-described metallic element contained in the low concentration-high dielectric constant film 108a is lower than that contained in the high concentration-high dielectric constant film 108b.
摘要:
A semiconductor device 100 includes a silicon substrate 102, an N-type MOSFET 118 including a first high dielectric constant film 111 and a polycrystalline silicon film 114 on the silicon substrate 102, and a P-type MOSFET 120 including a second high dielectric constant film 12 and a polycrystalline silicon film 114 juxtaposed to N-type MOSFET 118 on the silicon substrate 102. The second high dielectric constant film 112 is formed to have the film thickness thinner than the film thickness of the first high dielectric constant film 111. The first high dielectric constant film 111 and the second high dielectric constant film 112 contains one or more element(s) selected from Hf and Zr.
摘要:
Threshold voltage of a field effect transistor is successfully adjusted with a smaller dose of an impurity, as compared with a conventional adjustment of the threshold voltage only by doping an impurity into the channel region. A semiconductor device 100 has a silicon substrate 101 and a P-type MOSFET 103 comprising a SiON film 113 formed on the silicon substrate 101, and a polycrystalline silicon film 106. Any one of, or two or more of metals selected from the group consisting of Hf, Zr, Al, La, Pr, Y, Ti, Ta and W are allowed to reside at the interface 115 between the polycrystalline silicon film 106 and the SiON film 113, and concentration of the metal(s) at the interface 115 is adjusted to 5×1013 atoms/cm2 or more and less than 1.4×1015 atoms/cm2.
摘要翻译:与仅通过将杂质掺杂到沟道区域中的阈值电压的常规调节相比,场效应晶体管的阈值电压被成功地用较小剂量的杂质调节。 半导体器件100具有硅衬底101和包括形成在硅衬底101上的SiON膜113的P型MOSFET 103和多晶硅膜106.选自以下的金属中的任何一种或两种以上选自 的Hf,Zr,Al,La,Pr,Y,Ti,Ta和W被放置在多晶硅膜106和SiON膜113之间的界面115处,并且界面115处的金属的浓度 调整为5×1013原子/ cm 2以上且小于1.4×1015原子/ cm 2。
摘要:
A semiconductor device 100 comprises a silicon substrate 102, an N-type MOSFET 118 including a high concentration-high dielectric constant film 108b formed on the silicon substrate 102 and a polycrystalline silicon film 114, and a P-type MOSFET 120 including a low concentration-high dielectric constant film 108a and a polycrystalline silicon film 114 formed on the semiconductor substrate 102 to be juxtaposed to the N-type MOSFET 118. The low concentration-high dielectric constant film 108a and the high concentration-high dielectric constant film 108b are composed of a material containing one or more element (s) selected from a group consisting of Hf and Zr. The concentration of the above-described metallic element contained in the low concentration-high dielectric constant film 108a is lower than that contained in the high concentration-high dielectric constant film 108b.
摘要:
While forming an N-type MOSFET 118 and a P-type MOSFET 120 within regions operating using the same power supply voltage, thickness of a gate insulating film 106a of an N-type MOSFET 118 is made to be thicker than thickness of a gate insulating film 106b of a P-type MOSFET 120.
摘要:
The semiconductor device 100 comprises a silicon substrate 102, an N-type MOSFET 118 including a first high dielectric constant film 111 and a polycrystalline silicon film 114 formed on the silicon substrate 102, and a P-type MOSFET 120 including a second high dielectric constant film 112 and a polycrystalline silicon film 114 juxtaposed to N-type MOSFET 118 on the silicon substrate 102. The second high dielectric constant film 112 is formed to have the film thickness thinner than the film thickness of the first high dielectric constant film 111. The first high dielectric constant film 111 and the second high dielectric constant film 112 contains one or more element(s) selected from a group consisting of Hf and Zr.
摘要:
In P-channel MOS transistor comprising a gate insulating film composed of a high dielectric constant material and the gate electrode composed of polycrystalline silicon, a technology for preventing Fermi level pinning and providing a stable reduction of the threshold voltage is provided. The MOS transistor functions as a buried channel transistor formed by implanting In as a P-type impurity into the channel region. In addition, the gate electrode is composed of the polycrystalline silicon film, which is doped with N-type impurity. Thus, the gate depletion caused by Fermi level pinning can be effectively inhibited. Therefore the depletion in the gate electrode can be avoided and the threshold voltage can be stably diminished. In this case, the threshold voltage is stably reduced since electric charge is induced by applying a constant voltage to the gate electrode.
摘要:
In P-channel MOS transistor comprising a gate insulating film composed of a high dielectric constant material and the gate electrode composed of polycrystalline silicon, a technology for preventing Fermi level pinning and providing a stable reduction of the threshold voltage is provided. The MOS transistor functions as a buried channel transistor formed by implanting In as a P-type impurity into the channel region. In addition, the gate electrode is composed of the polycrystalline silicon film, which is doped with N-type impurity. Thus, the gate depletion caused by Fermi level pinning can be effectively inhibited. Therefore the depletion in the gate electrode can be avoided and the threshold voltage can be stably diminished. In this case, the threshold voltage is stably reduced since electric charge is induced by applying a constant voltage to the gate electrode.
摘要:
A semiconductor device includes: a semiconductor substrate; a semiconductor element formed on the semiconductor substrate and containing a gate electrode; impurity diffusion layers formed at both sides, in a cross-section in a gate length direction of the gate electrode, of a region on which the semiconductor element is formed of the semiconductor substrate; first silicide films formed respectively at the surface of the impurity diffusion layers, composed of a silicide compound of a first metal; and a second silicide film, formed at least at the surface of the gate electrode, composed of a silicide compound of a second metal different to the first metal. The silicide compound of the second metal has a silicidation temperature lower than the silicidation temperature of the silicide compound of the first metal.