Title :
Injection efficiency of CHISEL gate currents in short MOS devices: physical mechanisms, device implications, and sensitivity to technological parameters
Author :
Esseni, David ; Selmi, Luca ; Ghetti, Andrea ; Sangiorgi, Enrico
Author_Institution :
DIEGM, Udine, Italy
fDate :
11/1/2000 12:00:00 AM
Abstract :
This paper analyzes MOSFET gate currents in the so-called channel initiated secondary electron injection regime (CHISEL). A Monte Carlo model of the phenomenon is validated and then extensively used to explore CHISEL scaling laws. Results indicate that, compared to conventional channel hot electron injection (CHE), CHISEL exhibits a weaker dependence on channel length and a larger sensitivity to short channel effects. These results are confirmed experimentally and exhaustively explained with the help of simulations; furthermore, some of their possible detrimental consequences on the programming efficiency of CHISEL based flash cells are analyzed. Finally, the impact of channel doping, oxide thickness, and junction depth on CHISEL efficiency has been explored, and guidelines to maintain high injection efficiency in short devices are derived
Keywords :
MOSFET; Monte Carlo methods; doping profiles; flash memories; hot carriers; semiconductor device models; CHISEL gate currents; MOSFET gate currents; Monte Carlo model; channel doping; channel initiated secondary electron injection regime; channel length; device implications; flash cells; injection efficiency; junction depth; oxide thickness; physical mechanisms; programming efficiency; scaling laws; short MOS devices; technological parameters; Analytical models; Channel hot electron injection; Impact ionization; MOS devices; MOSFETs; Monte Carlo methods; Nonvolatile memory; Paper technology; Silicon; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
