Chinese Optics, Volume. 15, Issue 5, 992(2022)
Detection of large aperture flat mirror based on the differential optics transfer function method
[1] CUI X Q, ZHU Y T, LIANG M, et al. Introduction on Chinese 12m optical/infrared telescope (LOT)[J]. Proceedings of SPIE, 10700, 107001P(2018).
[2] BOUCHEZ A H, ANGELI G Z, ASHBY D S, et al. An overview and status of GMT active and adaptive optics[J]. Proceedings of SPIE, 10703, 107030W(2018).
[3] [3] KKIAKOSKI V, KELLER C U, DOELMAN N, et al. . Highder wavefront crection with a spatial light modulat: calibrations with dOTF method[C]. Proceedings of Adaptive Optics: Methods, Analysis Applications 2013, Optica Publishing Group, 2013.
[4] RODACK A T, KNIGHT J M, CODONA J L, et al. Adaptive optics self-calibration using differential OTF (dOTF)[J]. Proceedings of SPIE, 9605, 96052B(2015).
[5] KIM D W, OH C J, LOWMAN A, et al. Manufacturing of super-polished large aspheric/freeform optics[J]. Proceedings of SPIE, 9912, 99120F(2016).
[6] STUHLINGER T W. Subaperture optical testing: experimental verification[J]. Proceedings of SPIE, 656, 118-127(1986).
[7] CHEN SH Y, DAI Y F, LI SH Y, et al. Error reductions for stitching test of large optical flats[J]. Optics & Laser Technology, 44, 1543-1550(2012).
[8] KIM C J. Polynomial fit of subaperture interferograms[J]. Proceedings of SPIE, 351, 28-41(1983).
[9] TROLINGER J D. The language of holography[J]. Light:Advanced Manufacturing, 2, 473-481(2021).
[10] ZHANG J W, DAI S Q, MA CH J, et al. A review of common-path off-axis digital holography: towards high stable optical instrument manufacturing[J]. Light:Advanced Manufacturing, 2, 333-349(2021).
[11] FRATZ M, SEYLER T, BERTZ A, et al. Digital holography in production: an overview[J]. Light:Advanced Manufacturing, 2, 283-295(2021).
[12] BONNET H, BIANCAT-MARCHET F, DIMMLER M, et al. Adaptive optics at the ESO ELT[J]. Proceedings of SPIE, 10703, 1070310(2018).
[13] WOLFE C R, DOWNIE J D, LAWSON J K. Measuring the spatial frequency transfer function of phase-measuring interferometers for laser optics[J]. Proceedings of SPIE, 2870, 553-557(1996).
[14] [14] PARKS R E. Optical surface specification using the structure function[C]. Proceedings of Optical Fabrication Testing 2010, Optica Publishing Group, 2010: OWE3.
[15] SEO B J, NISSLY C, ANGELI G, et al. Analysis of normalized point source sensitivity as a performance metric for large telescopes[J]. Applied Optics, 48, 5997-6007(2009).
[16] STOKES A J, DUNCAN B D, DIERKING M P, et al. Improving mid-frequency contrast in sparse aperture optical imaging systems based upon the Golay-9 array[J]. Optics Express, 18, 4417-4427(2010).
[17] KONG X H, FAN X W, MA ZH, . Computer added Ritchey-Common test for large flat mirror measurement[J]. Journal of Applied Optics, 31, 984-988(2010).
[18] ZHU SH, ZHANG X H. Eliminating alignment error and analyzing Ritchey angle accuracy in Ritchey-Common test[J]. Optics Communications, 311, 368-374(2013).
[19] LIU Y M, LI J P, CHEN L, . Ritchey-Common interferometry using unit-excitation influence matrix's numerical calculation method[J]. Optics and Precision Engineering, 26, 771-777(2018).
[20] BAI X Q, GUO L, MA H C, . Aberration coupling characteristics of axial and lateral misalignments of off-axis three-mirror telescopes[J]. Chinese Optics, 15, 747-760(2022).
[21] FENG W, XU SH N, WANG H H, . Three-dimensional measurement method of highly reflective surface based on per-pixel modulation[J]. Chinese Optics, 15, 488-497(2022).
Get Citation
Copy Citation Text
Qi-chang AN, Xi-wen JIANG, Hong-wen LI, Jing TANG. Detection of large aperture flat mirror based on the differential optics transfer function method[J]. Chinese Optics, 2022, 15(5): 992
Category: Original Article
Received: Jun. 13, 2022
Accepted: --
Published Online: Sep. 29, 2022
The Author Email:
