In situ real-time monitoring of changes in the surface roughness during nonadiabatic optical near-field etching

T. Yatsui; K. Hirata; Y. Tabata; W. Nomura; T. Kawazoe; M. Naruse; M. Ohtsu

doi:10.1088/0957-4484/21/35/355303

In situ real-time monitoring of changes in the surface roughness during nonadiabatic optical near-field etching

T. Yatsui, K. Hirata, Y. Tabata, W. Nomura, T. Kawazoe, M. Naruse, M. Ohtsu

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

We performed in situ real-time monitoring of the change in surface roughness during self-organized optical near-field etching. During near-field etching of a silica substrate, we detected the scattered light intensity from a continuum wave (CW) laser (λ = 633 nm) in addition to the etching CW laser (λ = 532 nm) light source. We discovered that near-field etching not only decreases surface roughness, but also increases the number of scatterers, as was confirmed by analyzing the AFM image. These approaches provide optimization criteria for the etching parameter and hence for further decreases in surface roughness.

Original language	English
Article number	355303
Journal	Nanotechnology
Volume	21
Issue number	35
DOIs	https://doi.org/10.1088/0957-4484/21/35/355303
Publication status	Published - Mar 9 2010
Externally published	Yes

All Science Journal Classification (ASJC) codes

Bioengineering
Chemistry(all)
Materials Science(all)
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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10.1088/0957-4484/21/35/355303

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abstract = "We performed in situ real-time monitoring of the change in surface roughness during self-organized optical near-field etching. During near-field etching of a silica substrate, we detected the scattered light intensity from a continuum wave (CW) laser (λ = 633 nm) in addition to the etching CW laser (λ = 532 nm) light source. We discovered that near-field etching not only decreases surface roughness, but also increases the number of scatterers, as was confirmed by analyzing the AFM image. These approaches provide optimization criteria for the etching parameter and hence for further decreases in surface roughness.",

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AU - Yatsui, T.

AU - Hirata, K.

AU - Tabata, Y.

AU - Nomura, W.

AU - Kawazoe, T.

AU - Naruse, M.

AU - Ohtsu, M.

PY - 2010/3/9

Y1 - 2010/3/9

N2 - We performed in situ real-time monitoring of the change in surface roughness during self-organized optical near-field etching. During near-field etching of a silica substrate, we detected the scattered light intensity from a continuum wave (CW) laser (λ = 633 nm) in addition to the etching CW laser (λ = 532 nm) light source. We discovered that near-field etching not only decreases surface roughness, but also increases the number of scatterers, as was confirmed by analyzing the AFM image. These approaches provide optimization criteria for the etching parameter and hence for further decreases in surface roughness.

AB - We performed in situ real-time monitoring of the change in surface roughness during self-organized optical near-field etching. During near-field etching of a silica substrate, we detected the scattered light intensity from a continuum wave (CW) laser (λ = 633 nm) in addition to the etching CW laser (λ = 532 nm) light source. We discovered that near-field etching not only decreases surface roughness, but also increases the number of scatterers, as was confirmed by analyzing the AFM image. These approaches provide optimization criteria for the etching parameter and hence for further decreases in surface roughness.

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In situ real-time monitoring of changes in the surface roughness during nonadiabatic optical near-field etching

Abstract

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