Systematic study of the relationship between 1/ƒ noise, interface state defects and mobility ddgradtion of high-K /metal CMOSFETs on (110) and (100) substrate

Author

Sato, Motoyuki ; Aoyama, Takayuki ; Nara, Yasuo ; Ohji, Yuzuru

Author_Institution

Semicond. Leading Edge Technol. Inc. (Selete), Tsukuba, Japan

fYear

2009

fDate

26-30 April 2009

Firstpage

45

Lastpage

50

Abstract

We investigated in detail the relationship between the 1/f noise, carrier mobility and interface state defects between the Si substrate and oxide on (110) and (100) substrates. In the case of pMOSFETs, the 1/f noise is independent of the mobility degradation due to the increase of effective hole mass in Si channel. However, the 1/f noise is strongly related to the degradation in the hole mobility due to the process integration damage. With hole mobilities becoming lower, 1/f noise intensity was enhanced. On the other hand, the 1/f noise of nMOSFETs is rerated to interface defects rather than electron mobility degradation. Additionally its behavior was affected by the difference between P_b0 and P_b1.

Keywords

1/f noise; MOSFET; defect states; electron mobility; high-k dielectric thin films; hole mobility; interface states; semiconductor device noise; 1/f noise; Si; carrier mobility degradation; electron mobility; high-K-metal CMOSFET; hole mobility; interface state defect density; nMOSFET; pMOSFET; process integration damage; silicon substrate; CMOSFETs; Degradation; High K dielectric materials; High-K gate dielectrics; Interface states; MOSFETs; Nitrogen; Semiconductor device noise; Substrates; Tin; 1/ƒ noise; HƒSiON; Pb center; component; mobility;

fLanguage

English

Publisher

ieee

Conference_Titel

Reliability Physics Symposium, 2009 IEEE International

Conference_Location

Montreal, QC

ISSN

1541-7026

Print_ISBN

978-1-4244-2888-5

Electronic_ISBN

1541-7026

Type

conf

DOI

10.1109/IRPS.2009.5173222

Filename

5173222