Wassermann-Walf theory for the un-axis system

Kuang Xu; Jun Chang; De Wen Cheng; Yong Tian Wang

Wassermann-Walf theory for the un-axis system

Kuang Xu^*, Jun Chang, De Wen Cheng, Yong Tian Wang

^*Corresponding author for this work

School of Optics and Photonics

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

Abstract

Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V to decline the coma. This method only affects on the symmetric system. An innovation for Wassermann-Wolf equations is implemented in this method. This method can affect on the asymmetric system. The innovation for the Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V.

Original language	English
Pages (from-to)	355-356
Number of pages	2
Journal	Guangxue Jishu/Optical Technique
Volume	33
Issue number	SUPPL.
Publication status	Published - Nov 2007

Keywords

Aberration
Aspheric
Optical design
Wassermann-Wolf equations

Cite this

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title = "Wassermann-Walf theory for the un-axis system",

abstract = "Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V to decline the coma. This method only affects on the symmetric system. An innovation for Wassermann-Wolf equations is implemented in this method. This method can affect on the asymmetric system. The innovation for the Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V.",

keywords = "Aberration, Aspheric, Optical design, Wassermann-Wolf equations",

author = "Kuang Xu and Jun Chang and Cheng, {De Wen} and Wang, {Yong Tian}",

year = "2007",

month = nov,

language = "English",

volume = "33",

pages = "355--356",

journal = "Guangxue Jishu/Optical Technique",

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publisher = "Optical Technique",

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T1 - Wassermann-Walf theory for the un-axis system

AU - Xu, Kuang

AU - Chang, Jun

AU - Cheng, De Wen

AU - Wang, Yong Tian

PY - 2007/11

Y1 - 2007/11

N2 - Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V to decline the coma. This method only affects on the symmetric system. An innovation for Wassermann-Wolf equations is implemented in this method. This method can affect on the asymmetric system. The innovation for the Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V.

AB - Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V to decline the coma. This method only affects on the symmetric system. An innovation for Wassermann-Wolf equations is implemented in this method. This method can affect on the asymmetric system. The innovation for the Wassermann-Wolf equations are applied to design two aspheric surface automatically in CODE V.

KW - Aberration

KW - Aspheric

KW - Optical design

KW - Wassermann-Wolf equations

UR - http://www.scopus.com/inward/record.url?scp=40049090360&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:40049090360

SN - 1002-1582

VL - 33

SP - 355

EP - 356

JO - Guangxue Jishu/Optical Technique

JF - Guangxue Jishu/Optical Technique

IS - SUPPL.

ER -

Wassermann-Walf theory for the un-axis system

Abstract

Keywords

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