Title :
Improved Electrical Characteristics of Ge-on-Si Field-Effect Transistors With Controlled Ge Epitaxial Layer Thickness on Si Substrates
Author :
Oh, Jungwoo ; Majhi, Prashant ; Lee, Hideok ; Yoo, Oooksang ; Banerjee, Sanjay ; Kang, Chang Yong ; Yang, Ji-Woon ; Harris, Rusty ; Tseng, Hsing-Huang ; Jammy, Raj
Author_Institution :
SEMATECH, Austin
Abstract :
The authors report on the novel MOSFETs that were fabricated on thin relaxed Ge epitaxial layers grown on Si substrates. With controlled epi-Ge thickness, selectively activated shallow source/drain (S/D) junctions are formed using low dopant activation energy of Ge. The Ge epitaxial layers determine the effective S/D junction depth by selectively activating S/D implantations only in the Ge layers, while suppressing activation in the Si substrates. Low junction leakage current and capacitance are also achieved by forming S/D junctions in Si substrates as well as in Ge layers with controlled epi-Ge thickness. With this technique applied to Ge-on-Si epitaxial layers, Ge pMOSFETs showed an improvement in short channel effects and junction characteristics.
Keywords :
MOSFET; elemental semiconductors; epitaxial layers; germanium; leakage currents; silicon; Ge-Si - Interface; Ge-on-Si field-effect transistors; MOSFET; electrical characteristics; epitaxial layer thickness; junction characteristics; junction leakage current; low dopant activation energy; selectively activated shallow source/drain junctions; short channel effects; thin relaxed Ge epitaxial layers; Dielectric materials; Electric variables; Epitaxial growth; Epitaxial layers; FETs; Jamming; MOSFETs; Passivation; Substrates; Thickness control; Ge MOS capacitors; Ge MOSFETs; Ge epitaxy; high-$ {rm kappa} $ metal gate;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.908502
