Title :
Double raised source/drain transistor with 50 nm gate length on 17 nm UTF-SOI for 1.1 /spl mu/m/sup 2/ embedded SRAM technology
Author :
Chang Bong Oh ; Myoung Hwan Oh ; Hee Sung Kang ; Chang Hyun Park ; Byung Jun Oh ; Yoon Hae Kim ; Hwa Sung Rhee ; Young Wug Kim ; Kwang Pyuk Suh
Author_Institution :
Syst. LSI Div., Samsung Electron., Kyoungi-Do, South Korea
Abstract :
Double raised source/drain (DR) ultra thin film (UTF) SOI CMOSFETs were experimented for the first time. Double Si selective epitaxial growth (SEG) process before source/drain extension and deep source/drain implant is greatly recommended for excellent device performance with a reduced series resistance. Fully depleted (FD) SOI devices with 50 nm gate length for embedded SRAM technology were investigated for different SOI film thickness. Transistor performances of 700 /spl mu/A//spl mu/m and 355 /spl mu/A//spl mu/m at 1.0 V operation and Ioff = 90 nA//spl mu/m was obtained for NMOS and PMOS devices, respectively. Drain induced barrier lowering (DIBL) was improved as the SOI film thickness was scaled down to 17 nm from 50 nm. The static noise margin (SNM) for a 1.1 /spl mu/m/sup 2/ SRAM cell was 210 mV and ring oscillator speed was improved by 24% compared to bulk devices.
Keywords :
CMOS memory circuits; SIMOX; SRAM chips; buried layers; ion implantation; nitridation; oxidation; rapid thermal annealing; 1.0 V; SIMOX SOI wafers; Si; barrier lowering; buried oxide layer; deep source/drain implant; double raised source/drain CMOSFET; embedded SRAM technology; nitridation annealing; selective epitaxial growth process; static noise margin; thermal oxidation; ultrathin film SOI; Annealing; CMOS technology; Dielectrics; Immune system; Implants; MOS devices; Random access memory; Semiconductor thin films; Strontium; Thin film transistors;
Conference_Titel :
Electron Devices Meeting, 2003. IEDM '03 Technical Digest. IEEE International
Conference_Location :
Washington, DC, USA
Print_ISBN :
0-7803-7872-5
DOI :
10.1109/IEDM.2003.1269159
