DocumentCode :
1339136
Title :
Flicker-Noise Improvement in 100-nm 
Strained Quantum-Well Transistors Using Ultrathin Si Cap Layer
Author :
Li, Feng ; Lee, Se-Hoon ; Fang, Zhao ; Majhi, Prashant ; Zhang, Qiming ; Banerjee, Sanjay K. ; Datta, Suman
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University. Park, PA, USA
Volume :
31
Issue :
1
fYear :
2010
Firstpage :
47
Lastpage :
49
Abstract :
This letter presents a record low flicker-noise spectral density in biaxial compressively strained p-channel 100-nm LgSi0.50Ge0.50 quantum-well FETs (QWFETs) with ultrathin Si (~2 nm) barrier layer and 1-nm EOT hafnium silicate gate dielectric. The normalized power spectral density of Id fluctuations (SId/Id 2) in Si0.50Ge0.50 QWFETs exhibits significant improvement by ten times over surface channel unstrained Si pMOSFETs at high Vg due to strong confinement of holes within the high-mobility QW and strong quantization in the ultrathin Si barrier layer enabled by low-thermal-budget device processing. The noise behavior in strained QW devices is found to evolve from being correlated mobility fluctuation dominated across most of Vg range to being Hooge mobility fluctuation dominated at very high Vg.
Keywords :
MOSFET; field effect transistors; flicker noise; quantum well devices; silicon compounds; EOT hafnium silicate gate dielectric; Hooge mobility fluctuation; SiGe; biaxial compressively strained p-channel 100-nm quantum-well FET; flicker-noise improvement; low flicker-noise spectral density; low-thermal-budget device processing; normalized power spectral density; quantum-well transistors; size 100 nm; ultrathin Si barrier layer; ultrathin Si cap layer; Flicker noise; SiGe quantum-well FETs (QWFET); hole confinement; surface channel MOSFETs;
fLanguage :
English
Journal_Title :
Electron Device Letters, IEEE
Publisher :
ieee
ISSN :
0741-3106
Type :
jour
DOI :
10.1109/LED.2009.2035140
Filename :
5339241
Link To Document :
