Hostname: page-component-8448b6f56d-c4f8m Total loading time: 0 Render date: 2024-04-24T23:49:09.926Z Has data issue: false hasContentIssue false
  • English
  • Français

Density Measurement of Thin Sputtered Carbon Films

Published online by Cambridge University Press:  06 March 2019

G. L. Gorman ,
M.-M. Chen ,
G. Castillo  and
R. C. C. Perera
G. L. Gorman
Affiliation:
IBM Research Division Almaden Research Center 650 Harry Road San Jose, Ca. 95120
M.-M. Chen
Affiliation:
IBM General Products Division
G. Castillo
Affiliation:
IBM Research Division Almaden Research Center 650 Harry Road San Jose, Ca. 95120
R. C. C. Perera
Affiliation:
IBM Research Division Almaden Research Center 650 Harry Road San Jose, Ca. 95120
Get access

Abstract

The densities of sputtered thin carbon films have been determined using a novel X-ray technique. This nondestructive method involves the measurement of the transmitivity of a characteristic soft (low energy) X-ray line through the carbon film, and using the established equation I1 = I0eμpt where I1/I0 is the transmitivity, fi the photo absorption cross section, t the independently measured thickness, the density p can be easily solved for. This paper demonstrates the feasibility of using this simple technique to measure densities of carbon films as thin as 300 Å, which is of tremendous practical interest as carbon films on this order of thickness are used extensively as abrasive and corrosive barriers (overcoats) for metallic recording media disks. The dependence of the density upon film thickness for a fixed processing condition is presented, as also its dependence (for a fixed thickness) upon different processing parameters (e.g., sputtering gas pressure and target power). The trends noted in this study indicate that the sputtering gas pressure plays the most important role, changing the film density from 2.4gm/cm3 at 1 mTorr to 1.5gm/cm3 at 30 mTorr for 1000 Å thick films.

Type
VI. Analysis of Thin Films by XRD and XRF
Information
Advances in X-Ray Analysis , Volume 32: Thirty-Seventh Annual Conference on Applications of X-ray Analysis, August 1-5, 1988 , 1988 , pp. 323 - 330
Copyright
Copyright © International Centre for Diffraction Data 1988

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. Tsai, H.C. and Bogy, D.B., J. Vac. Sci. Technol. A5: 3287 (1987).Google Scholar
2. Anttila, A., Koskinen, J., Bister, M., and Hirvonen, J., Thin Solid Films 136:129. (1986).Google Scholar
3. Ingram, D.C., Woollam, J.A., and Bu-Abbud, G., Thin Solid Filins 137:225 (1986).Google Scholar
4. Laguitton, D. and Mantler, M., Adv. X-ray Anal. 20: 515 (1977).Google Scholar
5. Huang, T.C., X-Ray Spectrom. 10: 28 (1981).Google Scholar
6. Mantler, M., Adv. X-Ray Anal. 27: 433 (1984).Google Scholar
7. Huang, T.C. and Parrish, W., Adv. X-ray Anal. 29: 395 (1986).Google Scholar
8. Henke, B.L., Lee, P., Tanaka, T.J., Shimabukuro, R.L., and Fujikawa, B.K., Atomic Data and Nuclear Data Tables 27 1, Jan. (1982).Google Scholar
9. Del, N.K. Grande, Tirsell, K.G., Schneider, M.B., Garrett, R.F., Kneedler, E.M., and Manson, S.T., J. de Physique 48:C9-951 (1987).Google Scholar
10. Maissel, L. and Glang, R., “Handbook of Thin Film Technology,” McGraw-Hill Inc. , New York (1970).Google Scholar
11. Spool, A., private communication.Google Scholar