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Enhanced vacuum laser-impulse coupling by volume absorption at infrared wavelengths

1990; Cambridge University Press; Volume: 8; Issue: 1-2 Linguagem: Inglês

10.1017/s026303460000803x

1469-803X

Claude Phipps, Robert F. Harrison, T. Shimada, George W. York, Tom Turner, X. F. Corlis, Hubert Stassen, L. C. Haynes, Thomas King,

Laser Material Processing Techniques

We report measurements of vacuum laser impulse coupling coefficients as large as 90 dyne/W, obtained with single μs-duration CO 2 laser pulses incident on a volume-absorbing, cellulose-nitrate-based plastic. This result is the largest coupling coefficient yet reported at any wavelength for a simple, planar target in vacuum, and partly results from expenditure of internal chemical energy in this material. Enhanced coupling was also observed in several other target materials that are chemically passive, but absorb light in depth at 10-μm and 3-μm wavelengths. We discuss the physical distinctions between this important case and that of simple, planar surface absorbers [such as metals] which were studied in the same experimental series, in light of the predictions of a simple theoretical model. Ablation parameters for use with the model were determined in separate experiments near threshold in air and in vacuum. The transition from volume- to surface-absorption behavior in the infrared is described as being controlled by fluence-limiting and wavelength conversion in the uppermost target layer.