Study on Chemical Mechanical Polishing Mechanism of LiTaO<sub>3</sub> Wafer-Reference-Cited by-同舟云学术

Study on Chemical Mechanical Polishing Mechanism of LiTaO₃ Wafer

Published:2006-02 Issue: Volume:304-305 Page:310-314
ISSN:1662-9795
Container-title:Key Engineering Materials
language:
Short-container-title:KEM

Author:

Wei Xin¹,Yuan Hui¹,Du H.W.²,Xiong Wei¹,Huang Rui Wei¹

Affiliation:

1. Guangdong University of Technology

2. Laiyang Agricultural University

Abstract

In this paper, the scratching processes by a diamond indentor under the loads linearly increased from zero were studied to assess the mechanical behavior of LiTaO3 crystal wafer. Material removal mechanism of LiTaO3 crystal by mechanical loads was analyzed based on the measured acoustic signals in the scratching processes and the observation on the scratched surfaces of LiTaO3 wafers. The chemical mechanical polishing (CMP) processes of LiTaO3 wafers were analyzed in detail according to the observation and measurement of the polished surfaces of LiTaO3 wafers with SEM and XRD. The research results show that there exist four regimes along the scratched groove with the increasing of down force in a scratching process of LiTaO3 crystal wafer, and the critical load for each regime is affected by the loading speed and final load, etc. When H2O2 and KOH are added into the polishing slurry, the material of LiTaO3 wafer is removed by chemical reaction and mechanical action sequentially in the CMP processes, and the material removal rate increases while the surface roughness is improved.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.scientific.net/KEM.304-305.310.pdf

Reference5 articles.

1. http: /www. mt-berlin. com/frames_cryst/descriptions/lnb_lta. htm.

2. A.K. Sikder, F. Giglio, J. Wood, A. Kumar and M. Anthony: Journal of Electronic Materials, Vol. 30 (2001) No. 12, p.1520.

3. Z.R. Xia, Z.C. Li and K. Cui: Journal of Synthetic Crystals, Vol. 30 (2001) No. 4, p.419.

4. Y.W. Zhao, L. Chang and S.H. Kim: Wear, Vol. 254 (2003), p.332.

5. Y.L. Liu, K.L. Zhang, F. Wang and W.G. Di: Microelectronic Engineering, Vol. 66 (2003), p.438. H2O2 NaClO No Oxidant Ra (µm) R (mg/mm2) ×10-3 H2O2 NaClO No Oxidant.

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