"Laser-initiated microchemistry in thin films: Development of new types" by G. J. Fisanick, M. E. Gross et al.

Faculty Publications

Title

Laser-initiated microchemistry in thin films: Development of new types of periodic structure

Authors

G. J. Fisanick, Nokia Bell Labs
M. E. Gross, Nokia Bell Labs
J. B. Hopkins, Nokia Bell Labs
M. D. Fennell, Nokia Bell Labs
K. J. Schnoes, Nokia Bell Labs
A. Katzir, Nokia Bell Labs

Document Type

Article

Publication Date

12-1-1985

Abstract

Decomposition of Au metallopolymer thin films induced by a scanning cw Ar+ laser leads to metallic features that, under a broad range of experimental conditions, exhibit marked periodic structure. Preliminary mechanistic studies point to a thermal decomposition pathway in which the heat released in the exothermic reaction drives the reaction front ahead of the laser-irradiated area. The spatial period is determined by laser power, scan speed, and film thickness. We argue that this mechanism is analogous to laser-initiated explosive phenomena observed in the recrystallization of amorphous semiconductors.

Publication Source (Journal or Book title)

Journal of Applied Physics

First Page

1139

Last Page

1142

Recommended Citation

Fisanick, G., Gross, M., Hopkins, J., Fennell, M., Schnoes, K., & Katzir, A. (1985). Laser-initiated microchemistry in thin films: Development of new types of periodic structure. Journal of Applied Physics, 57 (4), 1139-1142. https://doi.org/10.1063/1.334557

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