Two-dimensional state of stress in a silicon wafer

Authors

Hancheng Liang, South China University of Technology
Yongxiong Pan, South China University of Technology
Shounan Zhao, New Jersey Institute of Technology
Ganming Qin, New Jersey Institute of Technology
K. Ken Chin, New Jersey Institute of Technology

Document Type

Article

Publication Date

12-1-1992

Abstract

Two-dimensional state of stress in (001) and (111) silicon wafer is studied with infrared photoelasticity. In two widely used groups of coordinate systems, the silicon piezo-optical coefficient tensors due to photoelastic anisotropy of silicon crystal are derived. The relation between stress ellipsoid and refractive index ellipsoid is analyzed with infrared polarized light transmitting through the silicon crystal in certain directions. The applicability of the stress-optical law in (001) and (111) silicon wafers is presented. A three direction observation method is developed to decide the magnitude and direction of principal stresses in silicon wafer. The stress states in (100) and (111) silicon wafers after certain device processes are also measured and calculated. Comparisons of experimental and calculated results are made.

Identifier

36449002580 (Scopus)

Publication Title

Journal of Applied Physics

External Full Text Location

https://doi.org/10.1063/1.351017

ISSN

00218979

First Page

2863

Last Page

2870

Issue

6

Volume

71

Recommended Citation

Liang, Hancheng; Pan, Yongxiong; Zhao, Shounan; Qin, Ganming; and Chin, K. Ken, "Two-dimensional state of stress in a silicon wafer" (1992). Faculty Publications. 17271.
https://digitalcommons.njit.edu/fac_pubs/17271