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vol 67 / February, 2024
Article

DOI 10.17586/0021-3454-2018-61-10-827-843

UDC 004.056.53

EXISTING LARGE-SIZED GROUND OPTICAL TELESCOPES FOR SPACE OBJECTS OBSERVATION

V. V. Kleymyonov
Mozhayskiy Space Military Academy, Saint Petersburg, 197198, Russian Federation; Principal Researcher


E. V. Novikova
Mozhayskiy Space Military Academy, Saint Petersburg, 197198, Russian Federation; Senior Researcher


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Abstract. Significant scientific and technical advances of recent times in the study of remote regions of the Universe, obtaining images of space and ground-based objects with high resolution became possible thanks to the use of new technologies for the development of large-size optical telescopes. A rise in the main telescope mirror diameter leads to an increase in mass and enhances the possibility of deforming the mirror surface and the telescope’s structural elements. This problem can be overcome by using segmented or flexible mirrors, the shape of which is maintained with the use of active optics. However, atmospheric turbulence degrades the quality of images of space objects obtained by ground-based telescopes. To compensate for the influence of the atmosphere, adaptive optics methods are used in most optical telescopes. An overview of the current state of optical telescopes development is presented. Consideration is given to large ground-based optical telescopes with composite and flexible mirrors with aperture diameter exceeding six meters, controlled by adaptive systems. The high resolving and penetrating capabilities achieved during the creation and modernization of large-sized ground-based optical telescopes allow to set and solve new and important scientific and applied problems in the study of space  objects of natural and artificial origin. One of these tasks, which has become particularly relevant in recent years, is the detection of small-sized fragments of space debris near spacecraft and orbital space stations. 
Keywords: optical telescopes, aperture diameter, flexible mirrors, segmented mirrors, active optics, adaptive optical systems

References:
  1. Terebizh V.Yu. Modern Optical Telescopes, Moscow, 2005, 80 p., http://terebizh.ru/V.YU.T/ publications%5C2005_02e.pdf. 
  2. Telescope Optics III: Modern Telescopes, http://www.astro.virginia.edu/class/majewski/ astr511/lectures/optics3/optics3.html.
  3. Kiriyenko D.V., Kleymyonov V.V., Novikova E.V. Journal of Instrument Engineering, 2017, no. 7(60), pp. 589–602. DOI: 10.17586/0021-3454-2017-60-7-589-602 (in Russ.)
  4. Hart M., Jefferies S., Murphy N. Proc. SPIE, 2016, vol. 9909, рp. 99095N. DOI: 10.1117/12.2235080
  5. D'Orgeville C., Fetzer G.J. Proc. SPIE, 2016, vol. 9909, рp. 99090R (18). DOI: 10.1117/12.2234298
  6. Gavel D.T. Proc. SPIE, 2012, vol. 8447, рp. 84470E (7). DOI: 10.1117/12.927023
  7. Wood G.E., Roggemann M.C., Welsh B.M. Proc. SPIE, 1997, vol. 3125. DOI: 10.1117/12.279025   
  8. Zihao Xu, Chengliang Yang, Peiguang Zhang, Xingyun Zhang, Zhaoliang Cao, Quanquan Mu, Qiang Sun, Li Xuan, Sci. Rep., 2017, vol. 7, рp. 10034, https://www.ncbi.nlm.nih.gov/pmc/articles/ PMC5577037/.
  9. Marlow W.A., Carlton A.K., Hyosang Yoon, Clark J.R., Haughwout Ch.A., Cahoy K.L., Males J.R., Close L.M., Morzinski K.M. Journal of Spacecraft & Rockets, 2017, no. 3(54), pp. 621–639.
  10. Laser Guidestar, Adaptive Optics and Laser Guide Star, 2012, https://budker.uni-mainz.de/ ?page_id=38. 
  11. Ioannisiani B.K. Journal of Optical Technology, 1970, no. 4, pp. 48. (in Russ.)
  12. Ioannisiani B.K. Аstrophysical Bulletin, 1971, vol. 3, рр. 3–19.
  13. Williams G.G., Ortiz R., Goble W., Gibson J.D. Proc. SPIE, 2016, vol. 9906, рр. 99060V(10).
  14. Ulich B.L. Proc. SPIE, 1982, vol. 0332, Nov., Advanced Technology Optical Telescopes I.
  15. Chin J.C.Y., Wizinowich P., Campbell R., Chock L., Cooper A., Lyke E., Mastromarino J., Martin O., Medeiros D., Morrison D., Neyman Ch., Panteleev S., Stalcup Th., Tucker P., Wetherell E., van Dam M. Proc. SPIE, 2012, vol. 8447, рp. 84474F (12). DOI: 10.1117/12.925807
  16. Meeks R.L., Doyle S., Higginson J., Hudek J.S., Irace W., McBride D., Pollard M., Kuochou Tai, Von Boeckmann T., Wold L., Wold T. Proc. SPIE, 2016, vol. 9906, рp. 990603 (18). DOI: 10.1117/12.2233693
  17. Wizinowich P.L., Le Mignant D., Bouchez A.H., Campbell R.D., Chin J.C.Y., Contos A.R., van Dam M.A., Hartman S.K., Johansson E.M., Lafon R.E. Astronomical Society of the Pacific, 2006,  no. 118(840), рр. 297–309, http://iopscience.iop.org/article/10.1086/499290.
  18. Chin J.C.Y., Wizinowich P., Wetherell E., Lilley S., Cetre S., Ragland S., Medeiros  D., Tsubota K., Doppmann G., Otarola A., Wei K. Proc. SPIE, 2016, vol. 9909, рp. 99090S. DOI: 10.1117/12.2233138
  19. Cranston P.G., McBride D., Sarawit A.T., Kan F.W. Proc. SPIE, 2016, vol. 9906, рp. 99061G (15). DOI: 10.1117/12.2233937
  20. Chin J.C.Y., Wizinowich P., Wetherell E., Cetre S., Campbell R.R., Lilley S., Lyke J., Medeiros D., Rampy R., Stalcup Th., Tsubota K., Tucker P., Wei K. Proc. SPIE, 2014, vol. 9148, рp. 914808 (16). DOI: 10.1117/12.2057449
  21. Wizinowich P., Smith R., Biasi R., Cetre S., Dekany R., Femenia-Castella B., Fucik J., Hale D., Neyman Ch., Pescoller D., Ragland S., Stomski P., Andrighettoni M., Bartos R., Bui Kh., Cooper A., Cromer J., van Dam M., Hess M., James E., Lyke J., Rodriguez H., Stalcup Th. Proc. SPIE, 2014, vol. 9148, рp. 91482B (12). DOI: 10.1117/12.2055279
  22. Jolissaint L., Neyman Ch., Christou J., Wizinowich P. Proc. SPIE, 2012, vol. 8447, рp. 844728. DOI: 10.1117/12.926607 
  23. Hill G.J., Drory N., Good J.M., Lee H., Vattiat B.L., Kriel H., Ramsey J., Bryant R., Elliot L., Fowler J., Häuser M., Landiau M.,Leck R., Odewahn St., Perry D., Savage R., Schroeder Mrozinski E.,Shetrone M., DePoy D.L., Prochaska T., Marshall J.L., Damm G., Gebhardt K., MacQueen P.J., Martin J., Armandroff T., Ramsey L.W. Proc. SPIE, 2016, vol. 9906, рp. 990606 (19).
  24. Häuser M., Richter J., Kriel H., Turbyfill A., Buetow B., Ward M. Proc. SPIE, 2016, vol. 9906,  рp. 990602 (11). DOI: 10.1117/12.2232410
  25. Hill G.J., Drory N., Good J.M., Lee H., Vattiat B.L., Kriel H., Ramsey J., Bryant R., Elliot L., Fowler J., Häuser M., Landiau M., Leck R., Odewahn St., Perry D., Savage R., Schroeder Mrozinski E., Shetrone M., De Poy D.L., Prochaska T., Marshall J.L., Damm G., Gebhardt K., MacQueen P.J., Martin J., Armandroff T., Ramsey L.W. Proc. SPIE, 2014, vol. 9145, рp. 914506 (19). DOI: 10.1117/12.2231063
  26. Chang Jin Oh, Frater E. Lowman A.E., Peng Su, Chunyu Zhao, Ping Zhou, Burge J.H. Proc. SPIE, 2014, vol. 9145, рp. 914509 (12). DOI: 10.1117/12.2056879
  27. Hill G.J., Booth J.A., Cornell M.E., Good J.M., Gebhardt K., Kriel H.J., Lee H., Leck R.,  Moreira W., Mac Queen P.J., Perry D.M., Rafal M.D., Rafferty T.H., Ramiller C., Savage R.D.,  Taylor C.A., Vattiat B.L., Ramsey L.W., Beno J.H., Beets T.A., Esguerra J.D., Häuser M.,  Hayes R.J., Heisler J.T., Soukup I.M., Zierer J.J., Worthington M.S., Mollison N.T., Wardell D.R., Wedeking G.A. Proc. SPIE, 2012, vol. 8444, рp. 84440K (14). DOI: 10.1117/12.925435
  28. Briguglio R., Biasi R., Xompero M., Riccardi A., Andrighettoni M., Pescoller D., Angerer G., Gallieni D., Vernet E., Kolb J., Arsenault R., Madec P.-Y. Proc. SPIE, 2014, vol. 9148, рp. 914845 (8). DOI: 10.1117/12.2057591
  29. First light for the Four Laser Guide Star Facility on ESO's Very Large Telescope, April 27.2016, https://phys.org/news/2016-04-laser-star-facility-eso-large.html. 
  30. Macdonald Ch. The giant lasers so powerful they can create an artificial STAR: Chilean instrument can cut through the atmosphere to give astronomers a clear view, 27 April 2016, http://www.dailymail.co.uk/sciencetech/article-3562451/The-giant-lasers-powerful-create-artificial-STAR-Chilean-instruments-cut-atmosphere-astronomers-clear-view.html. 
  31. Malik T. Zap! This Awesome Laser-Armed Telescope Is Fully Operational, April 28, 2016, https://www.space.com/32724-awesome-very-large-telescope-lasers-photos.html.
  32. Wildi F. Adaptive Optics in the VLT and ELT era basics of AO, http://www.isdc.unige.ch/~paltani/Courses/Instr_adaptiveoptics_wildi.pdf.
  33. Subaru Telescope Improves its Eye sight by a Factor of Ten, November 20, 2006, http://www.naoj.org/Pressrelease/2006/11/20/index.html.
  34. Guyon O., Hayano Y., Tamura M., Kudo T., Oya S., Minowa Y., Lai O., Jovanovic N., Takato N., Kasdin J., Groff T., Hayashi M., Arimoto N., Takami H., Bradley C., Sugai H., Perrin G., Tuthill P., Mazin B. Proc. SPIE, 2014, vol. 9148, рp. 91481R (10). DOI: 10.1117/12.2057273
  35. Hattori M., Shirahata M., Minowa Y., Oya S., Hayano Y., Takami H., Iye M. Proc. SPIE, 2012,  vol. 8447, рp. 84472P(7). DOI: 10.1117/12.927227
  36. Ellerbroek B.L. Journal of Astrophysics and Astronomy, 2013, nо. 34, рр. 121–139.
  37. Oya S., Akiyama M., Hayano Y., Minowa Y., Iwata I., Terada H., Usuda T., Takami H., Nishimura T., Kodama T., Takato N., Tomono D., Ono Y. Proc. SPIE, 2012, vol. 8447, рp. 84473V (11). DOI: 10.1117/12.926556
  38. Carrasco E.R., Edwards M.L., McGregor P.J., Winge C., Young P.J., Doolan M.C., van Harmelen J., Rigaut F.J., Neichel B., Trancho G., Artigau E., Pessev P., Colazo F., Tigner J., Mauro F.,  Lührs J., Rambold W.N. Proc. SPIE, 2012, vol. 8447, рp. 84470N (18). DOI: 10.1117/12.926240
  39. Neichel B., Rigaut F., Serio A., Arriagada G., Boccas M., d'Orgeville C., Fesquet V., Trujillo Ch., Rambold W.N., Galvez R.L., Gausachs G., Vucina T.B., Montes V., Urrutia C., Moreno C., Diggs S.J., Araya C., Lührs J., Trancho G., Bec M., Marchant C., Collao F., Carrasco E., Edwards M., Pessev P., Lopez A.A., Diaz H. Proc. SPIE, 2012, vol. 8447, рp. 84470W. DOI: 10.1117/12.925915
  40. d'Orgeville C., Diggs S., Fesquet V., Neichel B., Rambold W., Rigaut F., Serio A., Araya C.,  Arriagada G., Balladares R., Bec M., Boccas M., Duran C., Ebbers A., Lopez A., Marchant C.,  Marin E., Montes V., Moreno C., Petit Vega P., Segura C., Trancho G., Trujillo C., Urrutia C.,  Veliz P., Vucina T. Proc. SPIE, 2012, vol. 8447, рp. 84471Q. DOI: 10.1117/12.925813
  41. Ghez A. From Nautilus: “Opening a New Window into the Universe”, April 2017, https://sciencesprings.wordpress.com/2017/05/25/from-nautilus-opening-a-new-window-into-theuniverse/.
  42. Morzinski K.M., Close L.M., Males J.R., Kopon D., Hinz P.M., Esposito S., Riccardi A., Puglisi A., Pinna E., Briguglio R., Xompero M., Quirós-Pacheco F., Bailey V., Follette K. B., Rodigas T.J.,  Ya-Lin Wu, Arcidiacono C., Argomedo J., Busoni L., Hare T., Uomoto A., Weinberger A. Proc. SPIE, 2014, vol. 9148, рp. 914804. DOI: 10.1117/12.2057048
  43. Morzinski K.M., Close L.M., Males J.R., Hinz P.M., Esposito S., Riccardi A., Briguglio R.,  Follette K.B., Pinna E., Puglisi A., Vezilj J., Xompero M., Ya-Lin Wu. Proc. SPIE, 2016, vol. 9909,  рp. 990901 (17). DOI: 10.1117/12.2233911
  44. Close L.M., Males J.R., Kopon D.A., Gasho V., Follette K.B., Hinz Ph., Morzinski K., Uomoto, Hare T., Riccardi A., Esposito S., Puglisi A., Pinna E., Busoni L., Arcidiacono C., Xompero M., Briguglio R., Quiros-Pacheco F., Argomedo J. Proc. SPIE, 2012, vol. 8447, рp. 84470X (16). DOI: 10.1117/12.926545
  45. Gamma E. Sky&Telescope, 2013, April, рp. 26–30, http://eaglegamma.com/wp-content/uploads/ 2013/09/LZT.pdf.
  46. Andersen G. The Telescope. Its History, Technology and Future, Princeton University Press, 2007, 165 p., https://science.howstuffworks.com/engineering/structural/10-strange-structural-engineeringmarvels5.htm.
  47. Hicksona P., Borrab E., Cabanac R., Chapmana S., de Lapparentc V., Murooney M., Walker G. Proc. of SPIE, 1998, vol. 3352, рp. 226–232.
  48. Hill J.M., Ashby D.S., Brynnel J.G., Christou J.C., Little J.K., Summers D.M., Veillet C., Wagner R.M. Proc. SPIE, 2014, vol. 9145, рp. 914502 (12). DOI: 10.1117/12.2055218
  49. Ashby D.S., Biddick Ch., Hill J.M. Proc. SPIE, 2014, vol. 9145, рp. 91452S (16). DOI: 10.1117/12.2057193
  50. Hill J.M., Green R.F., Ashby D.S., Brynnel J.G., Cushing N.J., Little J.K., Slagle J.H., Wagner R.M. Proc. SPIE, 2012, vol. 8444, рp. 84441A(12). DOI: 10.1117/12.926636
  51. Esposito S., Riccardi A., Pinna E., Puglisi A., Quirós-Pacheco F., Arcidiacono C., Xompero M., Briguglio R., Agapito G., Busoni L., Fini L., Argomedo J., Gherardi A., Brusa G., Miller D., Guerra J.C., Stefanini P., Salnari P. Proc. of SPIE, 2011, vol. 8149, рp. 814902. 
  52. Brusa G., Ashby D.S., Christou J.C., Kern J., Lefebvre M., McMahon T.J., Miller D., Rahmer G., Sosa R., Taylor G., Vogel C., Xianyu Zhang. Proc. SPIE, 2016, vol. 9909, р. 990903. DOI: 10.1117/12.2234733
  53. Christou J.C., Brusa G., Conrad A., Esposito S., Herbst T., Hinz P., Hill J.M., Miller D.L., Rabien S., Rahmer G., Taylor G.E., Veillet C., Zhang X. Proc. SPIE, 2016, vol. 9909, рp. 99092E. DOI: 10.1117/12.2231783
  54. O’Donoghue D.E. et al. Proc. of SPIE, 2008, vol. 7018, рp. 701813-1-15.
  55. Meiring K. Elektron, 2005, January, рp. 9–10, http://www.ee.co.za/wp-content/uploads/legacy/ SALT.pdf.
  56. CANARY's Sodium Laser Guide Star Successfully Commissioned, July, 2016, http://www.ing.iac.es/PR/press/canary_lgs.html. 
  57. Geyl R., Cayrel M., Tarreau M. Proc. SPIE, 2004, vol. 5494. DOI: 10.1117/12.553815
  58. Eikenberry S.S. et al. Proc. SPIE, 2016, vol. 9908, рp. 99081L. DOI:10.1117/12.2232533
  59. Xiang-Qun Cui, Yong-Heng Zhao, Yao-Quan Chu, Guo-Ping Li, Qi Li, Li-Ping Zhang, Hong-Jun Su, Zheng-Qiu Yao, Ya-Nan Wang, Xiao-Zheng Xing. Research in Astronomy and Astrophysics, 2012, no. 9(12).
  60. Gang Zhao, Yong-Heng Zhao, Yao-Quan Chu, Yi-Peng Jing and Li-Cai Deng. Research in Astronomy and Astrophysics, 2012, no. 7(12).
  61. Yuan H.-B., Liu X.-W., Huo Z.-Y., Xiang M.-S., Huang Y., Chen B.-Q., Zhang H.-H., Sun N.-C., Wang C., Zhang H.-W. Monthly Notices of the Royal Astronomical Society, 2015, no. 1(448), pp. 855–894, https://academic.oup.com/mnras/article-abstract/448/1/855/1749593.