A Novel LTPS-TFT-Based Charge-Trapping Memory Device with Field-Enhanced Nanowire Structure

Abstract

A novel gate-all-around low-temperature poly-Si (LIPS) thin-film transistor (TFT) silicon-oxide-nitride-oxide-silicon (SONOS) nonvolatile memory with field-enhanced nanowire (FEN) structure has been proposed to improve the program and erase (P/E) performance. Each nanowire inherently had three sharp corners fabricated simply by sidewall spacer formation to obtain high local electric fields. The field-enhanced carrier tunneling via such a structure led to faster PIE speed and wider memory window for the FEN-TFT SONOS as compared to the conventional planar (CP) counterpart. The improvement was also further verified with the simulation results. Such a high-performance FEN-TFT SONOS memory with process simplicity is very suitable for future system-on-panel (SOP) applications.