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5 September 2014 High-density data recording on the thin nanocomposite films by laser thermo-lithography
Andriy A. Kryuchyn, Ivan V. Gorbov, Konstantin P. Grytsenko, Olexei I. Tolmachev
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Proceedings Volume 9201, Optical Data Storage 2014; 92010U (2014) https://doi.org/10.1117/12.2060828
Event: SPIE Optical Engineering + Applications, 2014, San Diego, California, United States
Abstract
The method of high-density data recording by laser thermo-lithography with ion-beam etching was proposed. The nanocomposite films were created by the spin-coating method on basis of organic positive photoresist and added synthesized dyes characterized by absorption in the spectral region 390-410 nm and which are able to be evaporated by 405 nm laser radiation. The pits with 250 – 300 nm width were performed on the thin organic nanocomposite films by 405 nm laser beam focused by 0.85 NA lens. The organic nanocomposite film with obtained pits was used as a mask for reactive ion-beam etching of glass substrate. The 150 nm pits were performed on the substrate surface in the result of the laser thermo-lithography with ion-beam etching.
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Andriy A. Kryuchyn, Ivan V. Gorbov, Konstantin P. Grytsenko, and Olexei I. Tolmachev "High-density data recording on the thin nanocomposite films by laser thermo-lithography", Proc. SPIE 9201, Optical Data Storage 2014, 92010U (5 September 2014); https://doi.org/10.1117/12.2060828
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KEYWORDS
Etching
Nanocomposites
Ion beams
Digital recording
Thin films
Photoresist materials
Absorption
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