Insight Into the Suppressed Recovery of NBTI-Stressed Ultrathin Oxynitride Gate pMOSFET

Author

Ang, D.S. ; Wang, S.

Author_Institution

Sch. of Electr. & Electron. Eng, Nanyang Technol. Univ., Singapore

Volume

27

Issue

9

fYear

2006

Firstpage

755

Lastpage

758

Abstract

It has been observed that the ultrathin oxynitride gate pMOSFET is resistant to post-negative-bias-temperature-instability (post-NBTI) recovery. The resistance to recovery is due mainly to the locking in of stress-induced positive interfacial/bulk oxide defects at deep energy levels (above the conduction band edge of the Si n-well) outside the energy window of electron direct tunneling. As a consequence, these defect states can remain positively charged for a long period in the ultrathin gate dielectric, even under positive gate biasing. Results show that nitrogen increases the density of deep-level oxide defect precursors, thus raising the resistance of the ultrathin gate pMOSFET to post-NBTI recovery

Keywords

MOSFET; dielectric devices; hole traps; thermal stability; tunnelling; NBTI-stressed MOSFET; bulk oxide defects; charge pumping current; deep-level oxide defect precursor; electron direct tunneling; hole trapping; oxynitride gate pMOSFET; positive gate biasing; post-negative-bias-temperature-instability; suppressed recovery; ultrathin gate dielectric; ultrathin gate pMOSFET; Current measurement; Dielectrics; Energy states; Hydrogen; MOSFET circuits; Niobium compounds; Nitrogen; Stress; Temperature; Titanium compounds; Charge pumping (CP) current; dynamic or ac stress; hole trapping; negative-bias temperature instability (NBTI); nitrided oxide; oxynitride;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2006.880841

Filename

1683869