Title :
Change in transfer and low-frequency noise characteristics of n-channel polysilicon TFTs due to hot-carrier degradation
Author :
Hatzopouos, A. ; Archontas, N. ; Hastas, N.A. ; Dimitriadis, C.A. ; Kamarinos, G. ; Georgoulas, N. ; Thanailakis, A.
Author_Institution :
Dept. of Phys., Thessaloniki Univ., Greece
fDate :
6/1/2004 12:00:00 AM
Abstract :
Results on the impact of hot-carrier effects on the transfer and low-frequency noise characteristics of n-channel poly-crystalline silicon thin-film transistors (polysilicon TFTs) are presented. After stressing at the condition of maximum substrate current, the experimental data show that TFTs suffer from substantial on-current reduction. Through numerical simulation, it is shown that the stress-induced degradation increases the density of the band tail traps in a region extending 200 nm from the drain and the series resistance on the drain side. It is found that the origin of the noise is reverted from carrier number fluctuation for the unstressed to the mobility fluctuation for the stressed device.
Keywords :
hot carriers; thin film transistors; band tail trap density; carrier number fluctuation; hot-carrier degradation; low-frequency noise characteristics; maximum substrate current; mobility fluctuation; n-channel polysilicon TFT; on-current reduction; polycrystalline silicon thin-film transistors; series resistance; stress-induced degradation; Degradation; Fluctuations; Hot carrier effects; Hot carriers; Low-frequency noise; Numerical simulation; Silicon; Substrates; Tail; Thin film transistors; Degradation; TFT; low-frequency noise; polysilicon; substrate current; thin-film transistor;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.828555
