New theory of femtosecond induced changes and nanopore formation

Details New theory of femtosecond induced changes and nanopore formation New theory of femtosecond induced changes and nanopore formation

2011-09-06

arxiv.org/abs/1109.1084v1

Physics

Condensed Matter

Materials Science

Submitted to 3rd Asia Pacific Optical Sensors Conference, Sydney, Australia

Scientific paper

Recent results confirm the presence of molecular oxygen proving that recombination of dissociated silica bonds does not occur. This combined with the observation of nanopores within the nanograting structure in silica, leads to a new interpretation of femtosecond processing based on the unusual characteristics of quenching of tetrahedral silica compared to other glasses. This new approach suggests very different directions and implications for devices, including sensors, based on femtosecond laser processing of glasses.

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