Title :
Effects of halo doping and Si capping layer thickness on total-dose effects in Ge p-MOSFETs
Author :
Arora, Rajan ; Mitard, Jerome ; Madan, Anuj ; Simoen, Eddy ; Zhang, Enxia X. ; Fleetwood, Daniel M. ; Choi, Bo K. ; Schrimpf, Ronald D. ; Galloway, Kenneth F. ; Kulkarni, Shrinivas R. ; Meuris, Marc ; Claeys, Cor ; Cressler, John D.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci. (EECS), Vanderbilt Univ., Nashville, TN, USA
Abstract :
The total-dose response of Gep-MOSFETs and p+-n junction diodes fabricated with process variations is reported. Radiation-induced reduction of the on/off current ratio increases with halo-doping density. Increasing the number of Si monolayers at the substrate/dielectric interface reduces total-dose sensitivity for p-MOSFETs. Reduced mobility degradation is observed after irradiation for devices with a higher number of Si monolayers. The radiation-induced increase in junction leakage is related to the increasing perimeter component of the leakage current. MOSFETs with a higher number of Si monolayers at the dielectric/substrate interface also have reduced perimeter leakage current. Diode leakage current increases with increasing halo-doping density.
Keywords :
MOSFET; germanium; leakage currents; p-i-n diodes; semiconductor doping; semiconductor junctions; Ge; Si; dielectric interface; diode leakage current; germanium p-MOSFET; halo doping; junction leakage; on/off current ratio; p+-n junction diodes; perimeter leakage current reduction; process variation; radiation-induced reduction; reduced mobility degradation; silicon capping layer thickness; substrate interface; total-dose effects; total-dose response; Doping; Junctions; Leakage current; Logic gates; MOSFET circuits; Silicon; Substrates; MOSFET; diode; germanium; p+-n; x-ray;
Conference_Titel :
Radiation and Its Effects on Components and Systems (RADECS), 2009 European Conference on
Conference_Location :
Bruges
Print_ISBN :
978-1-4577-0492-5
Electronic_ISBN :
0379-6566
DOI :
10.1109/RADECS.2009.5994659
