Title :
Threading dislocation induced low frequency noise in strained-Si nMOSFETs
Author :
Hua, W.-C. ; Lee, M.H. ; Chen, P.S. ; Tsai, M.-J. ; Liu, C.W.
Author_Institution :
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
The correlations between the threading dislocations and the low-frequency noise characteristics of the n-type strained-Si field-effect transistors are studied using the devices with different sizes. The device-area-dependent S/sub VG/ (power spectral density of the gate referred voltage noise) ratio of the strained-Si devices over the control Si devices obtained form geometric average can be understood by the modified carrier number fluctuation model with excess traps from the Poisson distributed threading dislocations. The equivalent trap number per threading dislocation extracted from the area-dependent S/sub VG/ ratios is /spl sim/85 for the strained-Si devices, and which results in /spl sim/4.2X degradation of the S/sub VG/ for the strained-Si device with the device area of 625 μm2.
Keywords :
MOSFET; Poisson distribution; chemical vapour deposition; elemental semiconductors; flicker noise; radiofrequency integrated circuits; semiconductor device noise; vacuum deposition; Poisson distributed threading dislocation; Si; device-area-dependent S/sub VG/; equivalent trap number; flicker noise; gate referred voltage noise ratio; modified carrier number fluctuation model; n-type strained-Si field-effect transistor; power spectral density; strained-Si device; strained-Si nMOSFET; threading dislocation-induced low frequency noise; 1f noise; CMOS technology; Degradation; Electronics industry; Industrial electronics; Low-frequency noise; MOSFET circuits; Radio frequency; Strain control; Surface morphology; Flicker noise; MOSFET; strained-Si; threading dislocation;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2005.853672
