Title :
Integration issues of high-k gate stack: Process-induced charging
Author :
Bersuker, G. ; Gutt, J. ; Chaudhary, N. ; Moumen, N. ; Lee, B.H. ; Barnett, I. ; Gopalan, S. ; Brown, J. ; Kim, Y. ; Young, C.D. ; Peterson, J. ; Li, H.J. ; Zeitzoff, P.M. ; Sim, G.A.J.H. ; Lysaght, P. ; Gardner, M. ; Murto, R.W. ; Huff, H.R.
Author_Institution :
Int. SEMATECH, Austin, TX, USA
Abstract :
Electrical properties of a wide range of Hf-based gate stacks were investigated using several modifications of a standard planar CMOS process flow to address the effects of transistor processing on the electrical properties of the high-k dielectrics. Characteristics of the short channel transistors were shown to be very sensitive to the fabrication process specifics - process sequence, tools, and recipes. It was concluded that, contrary to SiO2, the high-k films could be contaminated with reactive species during the post-gate definition fabrication steps, resulting in the formation of local charge centers. Such process-induced charging (PIC) degrades transistor performance and complicates evaluation of the intrinsic properties of high-k dielectrics. A process scheme that minimizes PIC is discussed.
Keywords :
CMOS integrated circuits; dielectric thin films; electric breakdown; hafnium compounds; integrated circuit reliability; permittivity; Hf-based gate stacks; electrical properties; high-k gate stack; integration issues; process sequence; process-induced charging; short channel transistors; standard planar CMOS process flow; transistor processing; CMOS process; Degradation; Dielectric substrates; Electrodes; Etching; Fabrication; High K dielectric materials; High-K gate dielectrics; Silicon compounds; Transistors;
Conference_Titel :
Reliability Physics Symposium Proceedings, 2004. 42nd Annual. 2004 IEEE International
Print_ISBN :
0-7803-8315-X
DOI :
10.1109/RELPHY.2004.1315375
