Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-23T14:21:38.904Z Has data issue: false hasContentIssue false
  • English
  • Français

The Preparation of Submicron Precision Cross Sections by Dimpling With A ‘Flatting Tool’

Published online by Cambridge University Press:  10 February 2011

Helen L. Humiston
Helen L. Humiston*
Affiliation:
Materials Analysis Group, Philips Semiconductors, 811 East Arques Avenue, M/S65, Sunnyvale, CA 94088
Get access

Abstract

The complex materials systems in VLSI devices require specialized preparation techniques for TEM microstructural analysis. For this purpose, it is desirable to obtain electron transparency in all material layers from the oxides used in dielectrics to refractory metals such as tungsten. The primary advantage of dimpling these materials is that ideal specimens are obtained for low angle ion milling. By dimpling both sides of the cross section with a padded flatting tool, a thicker specimen of 130μm at the outer rim of the 3mm disc is produced that narrows to the 125nm thickness fringes in the center. These samples do not require a copper support grid, thereby allowing for a lower milling angle of 2.5 degrees on both sides of the specimen. This technique provides a cross section that is electron transparent in all layers without the loss of oxides due to differential thinning rates of various materials at higher milling angles.

It is generally thought that precision thinning through a submicron feature is not possible on the dimpler. However, a simple step-by-step procedure for this technique will be demonstrated and discussed.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 480: Symposium Z – Specimen Preparation for Transmission Electron Microscopy…IV , 1997 , 117
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Humiston, H.L., Tracy, B.M., Dass, M.L.A. in Preparation of Large Thin Area TEM Specimens by Dimpling with a ‘Flatting Tool’, (Materials Research Society Proceedings 254, 1992, p.211221)Google Scholar
2. Cowden, W.G. and Datye, A.K. in The Use of Glass Slides for Preparing crosssection TEM samples of discrete Transistors, (Materials Research Society Proceedings 115, 1980, p. 109114)Google Scholar
3. Peiching, Dr. Ling of AMER, private communication.Google Scholar
4. Commercially available from Ted Pella, P.O. Box 492477, Redding, CA 96049–2477, order #75910.Google Scholar
5. Commercially available from VCR Group Inc., 250 E. Grand Ave., Suite 70, S. San Francisco, CA 94080.Google Scholar
6. John, Dr. Mardinly of Intel, private communication.Google Scholar
7. Commercially available from Serco Technical Services, Inc., 1069 Norfolk Rd., Livermore, CA 94550–1868.Google Scholar
8. Postek, M.T., Howard, K.S., Johnson, A.H., McMichael, A.L., Scanning Electron Microscopy, A Student's Handbook, 1980, p. 35.Google Scholar