[2] Postman M, Argabright V, Arnold B et al. Advanced technology large-aperture space telescope (ATLAST): a technology roadmap for the next decade[J]. Astrophysics, 430, 569(2009).
[3] Chanan G, Troy M. Strehl ratio and modulation transfer function for segmented mirror telescopes as functions of segment phase error[J]. Applied Optics, 38, 6642-6647(1999).
[5] Chanan G, Troy M, Ohara C. Phasing the primary mirror segments of the Keck telescopes: a comparison of different techniques[J]. Proceeding of SPIE, 4003, 188-202(2000).
[6] Shi F, Chanan G, Ohara C et al. Experimental verification of dispersed fringe sensing as a segment phasing technique using the Keck telescope[J]. Applied Optics, 43, 4474-4481(2004).
[8] Shi F, Redding D C, Lowman A E et al. Segmented mirror coarse phasing with a dispersed fringe sensor: experiment on NGST's wavefront control testbed[J]. Proceeding of SPIE, 4850, 318-327(2003).
[9] Zhang Y, Zhang L, Liu G R et al. Experimental study of segmented mirrors co-phase using dispersed fringe sensor[J]. Acta Optica Sinica, 31, 0212004(2011).
[10] Meng Y H, Xu S Y, Xu B Q. Method of segmented mirror co-phasing based on dispersed fringe sensing technology[J]. Acta Optica Sinica, 36, 0911006(2016).
[11] Koechlin L, Lawson P R, Mourard D et al. Dispersed fringe tracking with the multi-r0 apertures of the Grand Interféromètre à2 Télescopes[J]. Applied Optics, 35, 3002-3009(1996).
[14] Yan Z J, Chen X Y, Yang P Q et al. Co-phasing detecting method based on grating dispersed fringe for Fizeau Optical Interferometric Telescope[J]. Acta Physica Sinica, 64, 149501(2015).
[15] Li Y, Wang S Q, Rao C H. Dispersed-fringe-accumulation-based left-subtract-right method for fine co-phasing of a dispersed fringe sensor[J]. Applied Optics, 56, 4267-4273(2017).
[17] Shi S X, Wang X E, Liu J S[M]. Physical optics and applied optics, 133-147(2008).