Title :
An analytic expression of thermal diffusion coefficient for the hydrodynamic simulation of semiconductor devices
Author :
Tang, T.-W. ; Wang, X. ; Gan, H. ; Leong, M.-K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Massachusetts Univ., Amherst, MA, USA
Abstract :
Based on the moments of the Boltzmann transport equation, the authors proposed (1993) a thermal diffusion current density with D/sup T/=(D/T/sub n/)(1-/spl lambda//sub p/) where /spl lambda//sub p/ is a dimensionless parameter extracted from the Monte Carlo (MC) simulation. Here, a simple analytical expression of /spl lambda//sub p/ which is in better agreement with MC data is presented. Based on the MC simulation of n/sup +/-n-n+ structures they have found that the nonlocal mobility behavior is best described by an effective carrier temperature, yielding an expression /spl lambda//sub p/=/spl eta//(1+/spl eta/). They have implemented this new analytical expression in their 2D device simulator. A 0.1/spl mu/m partially-depleted SOI-MOSFET is simulated.
Keywords :
MOSFET; Monte Carlo methods; current density; digital simulation; hot carriers; hot electron transistors; semiconductor device models; silicon-on-insulator; thermal diffusion; 2D device simulator; Boltzmann transport equation; Monte Carlo simulation; Si; analytic expression; effective carrier temperature; hydrodynamic simulation; n/sup +/-n-n+ structures; nonlocal mobility behavior; partially-depleted SOI-MOSFET; semiconductor devices; thermal diffusion coefficient; thermal diffusion current density; Analytical models; Computational modeling; Computer simulation; Current density; Electron devices; Hot carriers; Hydrodynamics; Predictive models; Semiconductor devices; Thermal engineering;
Conference_Titel :
Computational Electronics, 2000. Book of Abstracts. IWCE Glasgow 2000. 7th International Workshop on
Conference_Location :
Glasgow, UK
Print_ISBN :
0-85261-704-6
DOI :
10.1109/IWCE.2000.869919
