Title :
Modeling and Characterization of Hydrogen-Induced Charge Loss in Nitride-Trapping Memory
Author :
Yang, Yi-Lin ; Chang, Chia-Hua ; Shih, Yen-Hao ; Hsieh, Kuang-Yeu ; Hwu, Jenn-Gwo
Author_Institution :
Graduate Inst. of Electron. Eng., Nat. Taiwan Univ., Taipei
fDate :
6/1/2007 12:00:00 AM
Abstract :
This paper studies hydrogen diffusion in nitride-based Flash memory. Distorted capacitance-voltage ( C-V) curves were obtained when the programmed devices were baked in an environment of hydrogen at a temperature of 400 degC. Hydrogen may invade the edge of the device. The effectively trapped electrons were eliminated by the invading hydrogen. Elimination is responsible for a nonuniform distribution of charges in capacitors and contributes to the distortion of C-V curves. The distorted C-V curve can be accurately simulated by superposing only two subcapacitors with appropriate area ratios. The hydrogen-invasion depth can also be calculated from the ratio of the subcapacitances. The hydrogen diffusion length decreased as the number of programmed electrons increased. Hydrogen invasion is modeled as a diffusion-limited process
Keywords :
diffusion; flash memories; nitridation; 400 C; diffusion-limited process; distorted capacitance-voltage curves; effectively trapped electrons; hydrogen diffusion; hydrogen-induced charge loss; hydrogen-invasion depth; nitride-based flash memory; nitride-trapping memory; nonuniform charge distribution; programmed electrons; Annealing; Capacitance; Electron traps; Flash memory; Hot carriers; Hydrogen; Material storage; Nonvolatile memory; Plasma temperature; SONOS devices; Flash memory; SONOS; hydrogen diffusion;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.895242
