Title :
A comprehensive physical model of oxide wearout and breakdown involving trap generation, charging, and discharging
Author :
Okuno, Hirotsugu ; Tominaka, T. ; Fujishima, S. ; Mitsumoto, T. ; Kubo, T. ; Kawaguchi, Tatsuki ; Kim, Jung-Wook ; Ikegami, Kenshin ; Sakamoto, Naohisa ; Yokouchi, S. ; Morikawa, T. ; Tanaka, T. ; Goto, Akira ; Yano, Yuichiro
Author_Institution :
Dept. of Electr. & Comput. Eng., Clemson Univ., SC
Abstract :
The trap generation in oxides between 5 nm and 13.5 nm thick has been measured as a function of the oxide electric field, the oxide thickness, the stress time, and the electron fluence during constant voltage stresses. It was found that the trap generation could be accurately described by an Eyring equation of the form NT=N 0 exp ((-0.32+0.012 E0)/kT)·t0,2. Here, NT is the trap density, N0 is approximately 1/10 the density of Si-O-Si bridging bonds, E0 is the electric field in MV/cm, kT is the thermal energy, and t is the stress time in sec. This Eyring formulation for the trap density helps explain the success of the Eyring formulation for oxide breakdown and supports the electric field (E-model) of oxide breakdown
Keywords :
electric breakdown; electron traps; insulating thin films; silicon compounds; E-model; Eyring model; SiO2; electric field; oxide breakdown; oxide wearout; trap generation; voltage stress; Electric breakdown; Electric variables measurement; Electron traps; Equations; Silicon; Stress measurement; Thermal stresses; Thickness measurement; Time measurement; Voltage;
Conference_Titel :
Integrated Reliability Workshop Final Report, 1998. IEEE International
Conference_Location :
Lake Tahoe, CA
Print_ISBN :
0-7803-4881-8
DOI :
10.1109/IRWS.1998.745368
