Large aperture telescopes in the problems of near-Earth astronomy

1Aleshin, VP, 1Grishin, EA, 1Ivlev, OA, 1Novgorodtsev, DD, 1Shargorodsky, VD
1Research and Production Corporation "Systems of precision instrument making", Moscow, Russia
Kinemat. fiz. nebesnyh tel (Online) 2016, 32(5):68-73
Start Page: Instruments and Devices
Language: Russian
Abstract: 

The work considers telescopes with an aperture greater than 3 m and with high-speed movement of the optical axis (more than 4 angular degrees per second). These telescopes are applied in problems of Space Situation Awareness. Up to date, there are only three telescopes with such parameters — SOR, AMOS, SST (all in the USA). A telescope of the same class is under completion at Altai optical laser center, it has aperture 3.12 m. The paper describes the main specifications of this telescope. Arising problems are identified and ways of solution are suggested.

Keywords: large aperture telescopes, telescope TI-3.12
References: 

1.V. P. Aleshin, “The ground based imaging of spacecraft and inverse problems,” Elektromagn. Volny Elektron. Sist. 19 (8), 60–67 (2014).

2.V. P. Aleshin, Yu. Yu. Balega, E. A. Grishin, et al., “The imaging of geostationary spacecrafts using large aperture telescopes for space situational awareness,” Elektromagn. Volny Elektron. Sist. 16 (3), 9–17 (2011).

3.V. P. Aleshin, Yu. Yu. Balega, A. F. Maksimov, et al., “Speckle interferometry of geostationary satellites: Reality and perspectives,” in Proc. Int. Conf. Near-Earth Astronomy–2011, Krasnoyarsk, Sept. 5–10, 2011; Vestn. Sib. Gos. Aerokosm. Univ., No. 6, 154–158 (2011).

4.V. P. Aleshin, D. D. Novgorodtsev, V. G. Vygon, et al., “Estimation of nonoperating spacecrafts motion near center of mass using the real optical observations,” in Proc. Int. Conf. Near-Earth Astronomy–2013, Agoi, Russia, Oct. 7–11, 2013; Ekol. Vestn. Nauchn. Tsentrov Chernomorsk. Ekon. Sotr., Nos. 4–2, 7–14 (2013).

5.M. R. Ackermann, R. R. Kiziah, P. C. Zimmer, et al., “Alternatives for ground-based, large-aperture optical space surveillance systems,” in Proc. 2013 Advanced Maui Optical and Space Surveillance Technical Conf. (AMOS 2013), Maui, HI, Sept. 10–13, 2013 (Maui Econ. Dev. Board, Maui, HI, 2013).

6.V. P. Aleshin, E. A. Grishin, D. D. Novgorodtsev, and V. D. Shargorodsky, “Monitoring of near-space anthropogenic pollution by observation of the Altay laser-optical center,” in Proc. Int. Conf. on One Wave-Two Wave Laser Range Estimation, St. Petersburg, 2012 (St. Petersburg, 2012), pp. 76–78.

7.V. P. Aleshin, E. A. Grishin, V. D. Shargorodsky, and D. D. Novgorodtsev, “Altay optic-laser center capability to satellites emergencies estimation,” in Proc. 9th US/Russian Space Surveillance Workshop, Listvyanka, Russia, Aug. 27–30, 2012 (Dep. Aerospace Eng., 2012).

8. AMOS User’s Manual, Revision 12 (Boeing, Kihei, HI, 2001).

9.L. del Monte, “European approach to space situational awareness, security strategy and partner ships development office DG Policy Office European Space Agency,” Presented at Fourth European Space Weather Week, Brussels, Nov. 5–9, 2007.

10.A. H. Douglas, M. J. Stuart, and C. Giebink, “Imaging geo-synchronous satellites with the AEOS Telescope,” in Proc. 2010 Advanced Maui Optical and Space Surveillance Technical Conf. (AMOS 2010), Maui, HI, Sept. 14–17, 2010 (Maui Econ. Dev. Board, Maui, HI, 2010).

11.R. Shah, D. F. Woods, W. Faccenda, et al., “Asteroid detection with the space surveillance telescope,” in Proc. 2012 Advanced Maui Optical and Space Surveillance Technical Conf. (AMOS 2012), Wailea, HI, Sept. 11–14, 2012 (Maui Econ. Dev. Board, Maui, HI, 2012).

12.S. M. Jefferies, D. A. Hope, and C. A. Giebink, “Next generation image restoration for space situational awareness,” Air Force Office of Scientific Research Report, Grant No. FA9550-06-1-0179 (2009).

13.V. Yu. Terebizh, “A wide-field corrector at the prime focus of a Ritchey-Chretien telescope,” Astron. Lett. 30, 200–208 (2004). http://xxx.lanl.gov/abs/astro-ph/0402212.
https://doi.org/10.1134/1.1667867

14.D. F. Woods, R. Shah, J. Johnson, et al., “The space surveillance telescope: focus and alignment of a three mirror telescope,” in Proc. 2013 Advanced Maui Optical and Space Surveillance Technical Conf. (AMOS 2013), Maui, HI, Sept. 10–13, 2013 (Maui Econ. Dev. Board, Maui, HI, 2013).