Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -

Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -

A prototype of the GMT FSM has been developed to acquire and to enhance the key technology – mirror fabrication and tiptilt actuation. The ellipsoidal off-axis mirror has been designed, analyzed, and fabricated from light-weighting to grinding, polishing, and figuring of the mirror surface. The mi...

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Main Authors: Young-Soo Kim, Jihun Kim, Je Heon Song, Myung Cho, Ho-Soon Yang, Joohyung Lee, Ho-Sang Kim, Kyoung-Don Lee, Hyo-Sung Ahn, Won Hyun Park
Format: Article
Language:English
Published: Korean Space Science Society (KSSS) 2014-12-01
Series:Journal of Astronomy and Space Sciences
Subjects:
GMT
secondary
mirror
off-axis
aspheric
fabrication
Online Access:http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2014/v31n4/OJOOBS_2014_v31n4_341.pdf
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spelling doaj-540ecc0f1636425084d5b09e9593797f2020-11-25T01:30:37ZengKorean Space Science Society (KSSS)Journal of Astronomy and Space Sciences2093-55872093-14092014-12-0131434134610.5140/JASS.2014.31.4.341Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -Young-Soo Kim0Jihun Kim1Je Heon Song2Myung Cho3Ho-Soon Yang4Joohyung Lee5Ho-Sang Kim6Kyoung-Don Lee7Hyo-Sung Ahn8Won Hyun Park9Korea Astronomy & Space Science Institute, 776 Daeduck-dero, Yuseong, Daejeon, KoreaKorea Astronomy & Space Science Institute, 776 Daeduck-dero, Yuseong, Daejeon, KoreaKorea Astronomy & Space Science Institute, 776 Daeduck-dero, Yuseong, Daejeon, KoreaNational Optical Astronomy Observatory, Tucson, USAKorea Research Institute of Standards and Science, Daejeon, KoreaKorea Research Institute of Standards and Science, Daejeon, KoreaInstitute for Advanced Engineering, Yongin, KoreaInstitute for Advanced Engineering, Yongin, KoreaGwangju Institute of Science and Technology, Gwangju, KoreaThe University of Arizona, Tucson, USAA prototype of the GMT FSM has been developed to acquire and to enhance the key technology – mirror fabrication and tiptilt actuation. The ellipsoidal off-axis mirror has been designed, analyzed, and fabricated from light-weighting to grinding, polishing, and figuring of the mirror surface. The mirror was tested by using an interferometer together with CGHs, which revealed the surface error of 13.7 nm rms in the diameter of 1030 mm. The SCOTS test was employed to independently validate the test results. It measured the surface error to be 17.4 nm rms in the diameter of 1010 mm. Both tests show the optical surface of the FSMP mirror within the required value of 20 nm rms surface error.http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2014/v31n4/OJOOBS_2014_v31n4_341.pdfGMTsecondarymirroroff-axisasphericfabrication
collection DOAJ
language English
format Article
sources DOAJ
author Young-Soo Kim
Jihun Kim
Je Heon Song
Myung Cho
Ho-Soon Yang
Joohyung Lee
Ho-Sang Kim
Kyoung-Don Lee
Hyo-Sung Ahn
Won Hyun Park
spellingShingle Young-Soo Kim
Jihun Kim
Je Heon Song
Myung Cho
Ho-Soon Yang
Joohyung Lee
Ho-Sang Kim
Kyoung-Don Lee
Hyo-Sung Ahn
Won Hyun Park
Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
Journal of Astronomy and Space Sciences
GMT
secondary
mirror
off-axis
aspheric
fabrication
author_facet Young-Soo Kim
Jihun Kim
Je Heon Song
Myung Cho
Ho-Soon Yang
Joohyung Lee
Ho-Sang Kim
Kyoung-Don Lee
Hyo-Sung Ahn
Won Hyun Park
author_sort Young-Soo Kim
title Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
title_short Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
title_full Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
title_fullStr Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
title_full_unstemmed Prototype Development for the GMT FSM Secondary - Off-axis Aspheric Mirror Fabrication -
title_sort prototype development for the gmt fsm secondary - off-axis aspheric mirror fabrication -
publisher Korean Space Science Society (KSSS)
series Journal of Astronomy and Space Sciences
issn 2093-5587
2093-1409
publishDate 2014-12-01
description A prototype of the GMT FSM has been developed to acquire and to enhance the key technology – mirror fabrication and tiptilt actuation. The ellipsoidal off-axis mirror has been designed, analyzed, and fabricated from light-weighting to grinding, polishing, and figuring of the mirror surface. The mirror was tested by using an interferometer together with CGHs, which revealed the surface error of 13.7 nm rms in the diameter of 1030 mm. The SCOTS test was employed to independently validate the test results. It measured the surface error to be 17.4 nm rms in the diameter of 1010 mm. Both tests show the optical surface of the FSMP mirror within the required value of 20 nm rms surface error.
topic GMT
secondary
mirror
off-axis
aspheric
fabrication
url http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2014/v31n4/OJOOBS_2014_v31n4_341.pdf
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AT jihunkim prototypedevelopmentforthegmtfsmsecondaryoffaxisasphericmirrorfabrication
AT jeheonsong prototypedevelopmentforthegmtfsmsecondaryoffaxisasphericmirrorfabrication
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