Title :
Silicon-compatible low resistance S/D technologies for high-performance top-gate self-aligned InGaZnO TFTs with UTBB (ultra-thin body and BOX) structures
Author :
Ota, K. ; Irisawa, T. ; Sakuma, K. ; Tanaka, C. ; Ikeda, K. ; Tezuka, T. ; Matsushita, D. ; Saitoh, M.
Author_Institution :
Adv. LSI Technol. Lab., Toshiba Corp., Kawasaki, Japan
Abstract :
We have fabricated high-performance self-aligned top-gate InGaZnO TFTs with novel silicon-like source and drain (S/D) parasitic resistance (RSD) reduction processes. Ar ion implantation (Ar I/I) formed S/D extension layers and reduced RSD by inducing high-density carriers. First demonstration of self-aligned S/D metallization processes on InGaZnO surface (In-Ti alloy formation), just like silicidation, realized further RSD reduction. In addition, threshold voltage (Vth) controllability by back-gate bias was enhanced by adopting thin InGaZnO body and BOX. Successful applications of these booster technologies developed for Si LSIs enable us to fabricate high-performance top-gate scaled InGaZnO TFT in 3D LSI.
Keywords :
argon; gallium compounds; indium compounds; ion implantation; large scale integration; metallisation; silicon; thin film transistors; zinc compounds; 3D LSI; Ar; InGaZnO; RSD; Si; Si LSI; UTBB structure; booster technology; high-density carriers; ion implantation; parasitic resistance; self-aligned S/D metallization processes; self-aligned top-gate InGaZnO TFT; silicon-compatible low resistance S/D technology; ultra-thin body and BOX structures; Annealing; Logic gates; Metallization; Plasmas; Surface treatment; Thin film transistors; Tin;
Conference_Titel :
VLSI Technology (VLSI Technology), 2015 Symposium on
Conference_Location :
Kyoto
DOI :
10.1109/VLSIT.2015.7223679
