Patent application number | Description | Published |
20090081843 | SEMICONDUCTOR DEVICE INCLUDING GATE ELECTRODE FOR APPLYING TENSILE STRESS TO SILICON SUBSTRATE, AND METHOD OF MANUFACTURING THE SAME - A gate insulating film ( | 03-26-2009 |
20090253235 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 10-08-2009 |
20110207312 | SEMICONDUCTOR DEVICE INCLUDING GATE ELECTRODE FOR APPLYING TENSILE STRESS TO SILICON SUBSTRATE, AND METHOD OF MANUFACTURING THE SAME - A gate insulating film ( | 08-25-2011 |
20110275185 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 11-10-2011 |
20130130457 | SEMICONDUCTOR DEVICE INCLUDING GATE ELECTRODE FOR APPLYING TENSILE STRESS TO SILICON SUBSTRATE, AND METHOD OF MANUFACTURING THE SAME - A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced. | 05-23-2013 |
20130203223 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 08-08-2013 |
20130330890 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 12-12-2013 |
20140024194 | SEMICONDUCTOR DEVICE INCLUDING GATE ELECTRODE FOR APPLYING TENSILE STRESS TO SILICON SUBSTRATE, AND METHOD OF MANUFACTURING THE SAME - A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced. | 01-23-2014 |
20140113418 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 04-24-2014 |
20140322878 | SEMICONDUCTOR DEVICE INCLUDING GATE ELECTRODE FOR APPLYING TENSILE STRESS TO SILICON SUBSTRATE, AND METHOD OF MANUFACTURING THE SAME - A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced. | 10-30-2014 |
20140377920 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH OFFSET SIDEWALL STRUCTURE - A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate ( | 12-25-2014 |