Study on the anti-reflection technology of color separate gratings

Chun Lin Yang; Qiao Xu; Li Ming Yang; Li Shu Zhou; Qing Hua Zhang

Study on the anti-reflection technology of color separate gratings

Chun Lin Yang, Qiao Xu, Li Ming Yang, Li Shu Zhou, Qing Hua Zhang

Chengdu Fine Optical Engineering Research Center

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

Abstract

Because of the reflection on the surface of the gratings, the diffractive efficiency of the components cannot meet the requirement of the ICF system. To solve the problem this paper introduces a kind of scheme adopted coating to reduce the reflection of the gratings' surface. The coating anti-reflection technology of the CSG is discussed. Using the scalar theory the design parameters wwere decided and the structure parameters of the gratings were optimized. The optimized value of the trough depth of the CSG is 2.84 μm, and the optimized value of the film depth is 71.2 nm. The numerical results show that the reflection of the gratings' surface was eliminated drastically. The validity of the anti-reflection technology is distinctly in the application of the high power laser propagation.

Original language	English
Pages (from-to)	177-180
Number of pages	4
Journal	Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams
Volume	16
Issue number	2
State	Published - Feb 2004
Externally published	Yes

Keywords

Coating anti-reflection technology
Color separate grating (CSG)
Diffractive efficiency
Sol-gel film

Cite this

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title = "Study on the anti-reflection technology of color separate gratings",

abstract = "Because of the reflection on the surface of the gratings, the diffractive efficiency of the components cannot meet the requirement of the ICF system. To solve the problem this paper introduces a kind of scheme adopted coating to reduce the reflection of the gratings' surface. The coating anti-reflection technology of the CSG is discussed. Using the scalar theory the design parameters wwere decided and the structure parameters of the gratings were optimized. The optimized value of the trough depth of the CSG is 2.84 μm, and the optimized value of the film depth is 71.2 nm. The numerical results show that the reflection of the gratings' surface was eliminated drastically. The validity of the anti-reflection technology is distinctly in the application of the high power laser propagation.",

keywords = "Coating anti-reflection technology, Color separate grating (CSG), Diffractive efficiency, Sol-gel film",

author = "Yang, {Chun Lin} and Qiao Xu and Yang, {Li Ming} and Zhou, {Li Shu} and Zhang, {Qing Hua}",

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T1 - Study on the anti-reflection technology of color separate gratings

AU - Yang, Chun Lin

AU - Xu, Qiao

AU - Yang, Li Ming

AU - Zhou, Li Shu

AU - Zhang, Qing Hua

PY - 2004/2

Y1 - 2004/2

N2 - Because of the reflection on the surface of the gratings, the diffractive efficiency of the components cannot meet the requirement of the ICF system. To solve the problem this paper introduces a kind of scheme adopted coating to reduce the reflection of the gratings' surface. The coating anti-reflection technology of the CSG is discussed. Using the scalar theory the design parameters wwere decided and the structure parameters of the gratings were optimized. The optimized value of the trough depth of the CSG is 2.84 μm, and the optimized value of the film depth is 71.2 nm. The numerical results show that the reflection of the gratings' surface was eliminated drastically. The validity of the anti-reflection technology is distinctly in the application of the high power laser propagation.

AB - Because of the reflection on the surface of the gratings, the diffractive efficiency of the components cannot meet the requirement of the ICF system. To solve the problem this paper introduces a kind of scheme adopted coating to reduce the reflection of the gratings' surface. The coating anti-reflection technology of the CSG is discussed. Using the scalar theory the design parameters wwere decided and the structure parameters of the gratings were optimized. The optimized value of the trough depth of the CSG is 2.84 μm, and the optimized value of the film depth is 71.2 nm. The numerical results show that the reflection of the gratings' surface was eliminated drastically. The validity of the anti-reflection technology is distinctly in the application of the high power laser propagation.

KW - Coating anti-reflection technology

KW - Color separate grating (CSG)

KW - Diffractive efficiency

KW - Sol-gel film

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VL - 16

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JO - Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams

JF - Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams

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Study on the anti-reflection technology of color separate gratings

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Keywords

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