Single-wavelength coarse phasing in segmented telescopes

J. F. Simar; Y. Stockman; J. Surdej

doi:10.1364/AO.54.001118

Applied Optics
Vol. 54,
Issue 5,
pp. 1118-1123
(2015)
•https://doi.org/10.1364/AO.54.001118

Single-wavelength coarse phasing in segmented telescopes

J. F. Simar, Y. Stockman, and J. Surdej

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J. F. Simar, Y. Stockman, and J. Surdej, "Single-wavelength coarse phasing in segmented telescopes," Appl. Opt. 54, 1118-1123 (2015)

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Abstract

Space observations of fainter and more distant astronomical objects constantly require telescope primary mirrors with larger sizes. The diameters of monolithic primary mirrors are restricted to 10 m because of manufacturing limitations. For space telescopes, the primary mirrors are limited to less than 5 m due to fairing capacity. Segmented primary mirrors thus constitute an alternative solution to deal with the steady increase of primary mirror size. The optical path difference between the individual segments must be close to 0 (a few nanometers) in order to be diffraction-limited. In this paper, we propose a new intersegment piston sensor based on the coherence measurement of a star image. This sensor is intended to be used in the co-phasing system of future segmented mirrors.

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Settled Piston	AVG	Difference	Standard Dev.
(nm)	(nm)	(%)	[nm (%)]
412	3027	634.71	720 (23.79)
5465	5995	9.70	683 (11.39)
10,877	9831	$- 9.62$	437 (4.45)
15,129	11,349	$- 24.99$	392 (3.45)
20,622	18,541	$- 10.09$	347 (1.87)
40,200	37,105	$- 7.70$	279 (0.75)
59,487	60,088	1.01	184 (0.31)
79,945	80,184	0.30	158 (0.20)
99,992	100,791	0.80	191 (0.19)
120,659	120,717	0.05	348 (0.29)
140,994	141,412	0.30	515 (0.36)
161,163	158,457	$- 1.68$	701 (0.44)
177,285	180,081	1.58	792 (0.44)
186,920	190,299	1.81	954 (0.50)
190,235	193,032	1.47	1319 (0.68)
195,518	192,418	$- 1.59$	1593 (0.83)
200,391	201,864	0.74	1932 (0.96)

Lon (°)	Lat (°)	GTC Prob	E-ELT Prob
30	0	1	0.9850
60	0	1	0.9474
135	0	1	0.7406
180	0	1	0.6909
0	10	1	0.7804
30	10	1	0.7305
60	10	1	0.6556
90	10	1	0.5763
135	10	1	0.4877
180	10	1	0.4553
0	30	1	0.2705
30	30	1	0.2587
60	30	1	0.2387
90	30	1	0.2184
135	30	1	0.1957
180	30	1	0.1888
30	60	0.9974	0.1194
60	60	0.9964	0.1159
90	60	0.9948	0.1116
135	60	0.9919	0.1063
180	60	0.9904	0.1042
90	90	0.9775	0.0916

Settled Piston	AVG	Difference	Standard Dev.
(nm)	(nm)	(%)	[nm (%)]
412	3027	634.71	720 (23.79)
5465	5995	9.70	683 (11.39)
10,877	9831	$- 9.62$	437 (4.45)
15,129	11,349	$- 24.99$	392 (3.45)
20,622	18,541	$- 10.09$	347 (1.87)
40,200	37,105	$- 7.70$	279 (0.75)
59,487	60,088	1.01	184 (0.31)
79,945	80,184	0.30	158 (0.20)
99,992	100,791	0.80	191 (0.19)
120,659	120,717	0.05	348 (0.29)
140,994	141,412	0.30	515 (0.36)
161,163	158,457	$- 1.68$	701 (0.44)
177,285	180,081	1.58	792 (0.44)
186,920	190,299	1.81	954 (0.50)
190,235	193,032	1.47	1319 (0.68)
195,518	192,418	$- 1.59$	1593 (0.83)
200,391	201,864	0.74	1932 (0.96)

Lon (°)	Lat (°)	GTC Prob	E-ELT Prob
30	0	1	0.9850
60	0	1	0.9474
135	0	1	0.7406
180	0	1	0.6909
0	10	1	0.7804
30	10	1	0.7305
60	10	1	0.6556
90	10	1	0.5763
135	10	1	0.4877
180	10	1	0.4553
0	30	1	0.2705
30	30	1	0.2587
60	30	1	0.2387
90	30	1	0.2184
135	30	1	0.1957
180	30	1	0.1888
30	60	0.9974	0.1194
60	60	0.9964	0.1159
90	60	0.9948	0.1116
135	60	0.9919	0.1063
180	60	0.9904	0.1042
90	90	0.9775	0.0916

Optical Setup Components
- Halogen lamp (250 W bulb)
- Converging lens
- Pinhole (20 μm diameter)
- Off-axis parabola (10 cm diameter)
- Subpupil mask (three holes of 8 mm diameter each)
- Flat mirrors
- Piezoelectric actuator (400 μm displacement)
- Spectral filter ( $λ = 632.8 nm$ , $bandwidth = 1 nm$ )
- CCD camera (AVT Pike F-032B)

Optical Setup Components
- Halogen lamp (250 W bulb)
- Converging lens
- Pinhole (20 μm diameter)
- Off-axis parabola (10 cm diameter)
- Subpupil mask (three holes of 8 mm diameter each)
- Flat mirrors
- Piezoelectric actuator (400 μm displacement)
- Spectral filter ( $λ = 632.8 nm$ , $bandwidth = 1 nm$ )
- CCD camera (AVT Pike F-032B)

Abstract

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Figures (5)

Tables (3)

Equations (12)

Applied Optics