Title :
Selectively formed high mobility strained Ge PMOSFETs for high performance CMOS
Author :
Shang, Huiling ; Chu, Jack O. ; Bedell, Stephen ; Gusev, Evgeni P. ; Jamison, Paul ; Zhang, Ying ; Ott, John A. ; Copel, Matthew ; Sadana, Devendra ; Guarini, Kathryn W. ; Ieong, Meikei
Author_Institution :
IBM Semicond. R&D Center, T. J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
For the first time, we have integrated strained germanium (s-Ge) channel PMOSFETs with conventional CMOS processes including shallow trench isolation (STI) and scaled thin gate dielectrics. The selectively formed thin s-Ge channels are realized on pre-patterned SiGe on insulator (SGOI) regions by local thermal mixing (TM) or selective UHVCVD process. The thinnest SiO2 on the s-Ge is achieved by low temperature remote plasma oxidation of a thin Si cap. As a result, 3X drive current enhancement is demonstrated on the fabricated s-Ge channel PMOSFETs over the Si controls. In addition, an appropriate threshold voltage (Vth) is demonstrated on the HfO2/P+ poly Si gate PMOSFETs when using an s-Ge channel.
Keywords :
CMOS integrated circuits; MOSFET; dielectric materials; elemental semiconductors; germanium; isolation technology; CMOS; Ge; HfO2; SiGe on insulator; SiO2; high mobility strained Ge PMOSFET; remote plasma oxidation; scaled thin gate dielectrics; shallow trench isolation; strained germanium channel PMOSFET; thermal mixing; threshold voltage; CMOS process; CMOS technology; Capacitive sensors; Dielectrics; Germanium silicon alloys; Isolation technology; MOSFETs; Oxidation; Plasma temperature; Silicon germanium;
Conference_Titel :
Electron Devices Meeting, 2004. IEDM Technical Digest. IEEE International
Print_ISBN :
0-7803-8684-1
DOI :
10.1109/IEDM.2004.1419095
