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Ultraviolet photoablation of a plasma-synthesized fluorocarbon polymer

  • Surfaces And Multilayers
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Abstract

Plasma polymerized tetrafluoroethylene (PPTFE) is shown to undergo efficient 248 nm excimer laser ablation. The principle difference between this material and the analogous polytetrafluoroethylene (PTFE), which results in only poor quality ablation, is PPTFE's much greater absorption coefficient (7×104 vs. ∼102 cm−1). A plot of the ablation depth per pulse versus incident fluence indicates that the threshold for significant ablation occurs near 50 mJ/cm2, and that approximately 0.7 μm/pulse can be removed at 800 mJ/cm2. Near threshold, the ablation rate curve can be fit by a single Arrhenius-type exponential. This suggests that the removal process is at least partially governed by a photothermal process, similar to well-known laser induced thermal desorption experiments. In the very low fluence regime between 10 and 30 mJ/cm2, small removal rates are measured in a process likely dominated by non-thermal ablation. The paper concludes with a discussion of the high quality, micron-size features that can be directly patterned into PPTFE surfaces.

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Authors and Affiliations

  1. IBM Almaden Research Center, 650 Harry Road, 95120-6099, San Jose, CA, USA

    J. H. Brannon, D. Scholl & E. Kay

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  1. J. H. Brannon
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  2. D. Scholl
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  3. E. Kay
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Brannon, J.H., Scholl, D. & Kay, E. Ultraviolet photoablation of a plasma-synthesized fluorocarbon polymer. Appl. Phys. A 52, 160–166 (1991). https://doi.org/10.1007/BF00323735

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  • DOI: https://doi.org/10.1007/BF00323735

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