A Discharge-Based Pulse Technique for Probing the Energy Distribution of Positive Charges in Gate Dielectric

Author

Riu Gao ; Zhigang Ji ; Zhang, Jian F. ; Wei Dong Zhang ; Wan Muhamad Hatta, Sharifah F. ; Niblock, James ; Bachmayr, Peter ; Stauffer, Lee ; Wright, Katie ; Greer, Steve

Author_Institution

Sch. of Eng., John Moores Univ., Liverpool, UK

Volume

28

Issue

3

fYear

2015

fDate

Aug. 2015

Firstpage

221

Lastpage

226

Abstract

Characterizing positive charges and its energy distribution in gate dielectric is useful for process qualification. A discharge-based technique is introduced to extract their energy distribution both within and beyond substrate band-gap. This paper investigates the difficulties in its implementation on typical industrial parameter analyzer and provides solutions. For the first time, we demonstrate the technique´s applicability to the advanced 22-nm fabrication process and its capability in evaluating the impact of different strains on the energy distribution. The test time is within several hours. This, together with its implementation on industrial parameter analyzer, makes it a useful tool in the semiconductor manufacturing foundries for process monitoring and optimization.

Keywords

dielectric materials; energy gap; process monitoring; semiconductor device manufacture; semiconductor device testing; discharge-based pulse technique; energy distribution; fabrication process; gate dielectric; industrial parameter analyzer; positive charge; process monitoring; process qualification; semiconductor manufacturing foundry; size 22 nm; substrate band-gap; Current measurement; Degradation; Discharges (electric); Semiconductor device measurement; Sensors; Strain; Stress; Energy distributions; energy profiles; hole traps; negative bias temperature instability (NBTI); positive charges (PCs);

fLanguage

English

Journal_Title

Semiconductor Manufacturing, IEEE Transactions on

Publisher

ieee

ISSN

0894-6507

Type

jour

DOI

10.1109/TSM.2015.2407909

Filename

7052385