Diamond turning of high-precision roll-to-roll imprinting molds for fabricating subwavelength gratings

Chun Wei Liu; Jiwang Yan; Shih Chieh Lin

doi:10.1117/1.OE.55.6.064105

Diamond turning of high-precision roll-to-roll imprinting molds for fabricating subwavelength gratings

Chun Wei Liu, Jiwang Yan, Shih Chieh Lin

Department of Mechanical Engineering

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

15 Citations (Scopus)

Abstract

Diamond turning of high-precision molds is a vital process for the roll-to-roll-based ultraviolet resin imprinting process in fabricating subwavelength gratings. The effects of the grating shape and grating period on diffraction efficiencies and diffraction angles were simulated. Experiments were then conducted to examine the effects of shape design, grating period, and cutting speed on machinability of the mold. According to the optical measurement results, the performance of the subwavelength gratings matched the design well at various incident angles. The results confirm that diamond turning of high-precision molds is a feasible approach for ensuring the continual mass production of subwavelength gratings.

Original language	English
Article number	064105
Journal	Optical Engineering
Volume	55
Issue number	6
DOIs	https://doi.org/10.1117/1.OE.55.6.064105
Publication status	Published - 2016 Jun 1

Keywords

diamond machining
diffraction grating
optical design and fabrication
roll-to-roll ultraviolet embossing process
subwavelength grating

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Engineering(all)

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10.1117/1.OE.55.6.064105

Cite this

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title = "Diamond turning of high-precision roll-to-roll imprinting molds for fabricating subwavelength gratings",

abstract = "Diamond turning of high-precision molds is a vital process for the roll-to-roll-based ultraviolet resin imprinting process in fabricating subwavelength gratings. The effects of the grating shape and grating period on diffraction efficiencies and diffraction angles were simulated. Experiments were then conducted to examine the effects of shape design, grating period, and cutting speed on machinability of the mold. According to the optical measurement results, the performance of the subwavelength gratings matched the design well at various incident angles. The results confirm that diamond turning of high-precision molds is a feasible approach for ensuring the continual mass production of subwavelength gratings.",

keywords = "diamond machining, diffraction grating, optical design and fabrication, roll-to-roll ultraviolet embossing process, subwavelength grating",

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AU - Liu, Chun Wei

AU - Yan, Jiwang

AU - Lin, Shih Chieh

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Diamond turning of high-precision molds is a vital process for the roll-to-roll-based ultraviolet resin imprinting process in fabricating subwavelength gratings. The effects of the grating shape and grating period on diffraction efficiencies and diffraction angles were simulated. Experiments were then conducted to examine the effects of shape design, grating period, and cutting speed on machinability of the mold. According to the optical measurement results, the performance of the subwavelength gratings matched the design well at various incident angles. The results confirm that diamond turning of high-precision molds is a feasible approach for ensuring the continual mass production of subwavelength gratings.

AB - Diamond turning of high-precision molds is a vital process for the roll-to-roll-based ultraviolet resin imprinting process in fabricating subwavelength gratings. The effects of the grating shape and grating period on diffraction efficiencies and diffraction angles were simulated. Experiments were then conducted to examine the effects of shape design, grating period, and cutting speed on machinability of the mold. According to the optical measurement results, the performance of the subwavelength gratings matched the design well at various incident angles. The results confirm that diamond turning of high-precision molds is a feasible approach for ensuring the continual mass production of subwavelength gratings.

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KW - diffraction grating

KW - optical design and fabrication

KW - roll-to-roll ultraviolet embossing process

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Diamond turning of high-precision roll-to-roll imprinting molds for fabricating subwavelength gratings

Abstract

Keywords

ASJC Scopus subject areas

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