Title :
Dual-type CMOS gate electrodes by dopant diffusion from silicide
Author :
Nygren, Stefan ; Amm, David T. ; Levy, Didier ; Torres, Joaquin ; Göltz, Gerhard ; d´Ouville, T.T. ; Delpech, Philippe
Author_Institution :
CNET, Meylan, France
fDate :
6/1/1989 12:00:00 AM
Abstract :
Dual work function gate electrodes have been implemented in a 1-μm CMOS process. Dopant atoms were implanted into tungsten silicide simultaneously with the source-drain implantations and subsequently diffused into the underlying polycrystalline silicon layer by rapid thermal annealing. Physical analyses showed that arsenic and boron could easily be incorporated in the polysilicon to concentrations greater than 1020 cm-3. Capacitor and transistor measurements confirmed that n+ and p+ silicon could be obtained, with a difference of about 1 V between the respective flat-band voltages. By comparison with conventional n-type gate MOSFETs, it was verified that significantly improved subthreshold characteristics were obtained with p-type PMOS gate electrodes
Keywords :
CMOS integrated circuits; annealing; metallisation; semiconductor doping; semiconductor technology; tungsten compounds; 1 micron; CMOS gate electrodes; CMOS process; RTA; WSi2-Si; capacitor measurements; dopant diffusion from silicide; dopant source; dual work function gate electrodes; flat-band voltages; p-type PMOS gate electrodes; polycrystalline Si layer; rapid thermal annealing; subthreshold characteristics; transistor measurements; Atomic layer deposition; Boron; CMOS process; Electrodes; MOSFETs; Rapid thermal annealing; Rapid thermal processing; Silicides; Silicon; Tungsten;
Journal_Title :
Electron Devices, IEEE Transactions on
