DOI 10.17586/0021-3454-2017-60-7-589-602
UDC 004.056.53
LARGE OPTICAL SPACE-BASED TELESCOPES
4-th Scientific Research Institute of the Ministry of Defense; the Chief of Department
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
Read the full article
Abstract. An overview of the current state and tendencies in development and construction of high-tech astronomical optical space surveillance systems abroad is provided. Creation of large optical telescopes is reported to be the main trend related to efforts to improve the quality of images by enhancing the basic characteristics of optical telescopes depending on the telescope aperture size. The trend leads to increasing requirements to material and quality of optical elements. Comparative characteristics of optical materials used in the manufacture of mirrors for space-based telescopes are presented. Operating orbital telescopes (HST, Spitzer, Hershel, Gaia) and large optical telescopes under construction (SPICA, JWST, ATLAST) with the composite and flexible mirrors controlled by active systems are considered.
Keywords: optical space telescopes, aperture diameter, flexible mirrors, composite segmented mirrors, active optics, optical materials, silicon carbide mirrors
References:
References:
- Chanan G., MacMartin D.G., Nelson J., Mast T. Applied Optics, 2004, no. 6(43), рp. 1223–1232.
- Edeson R., Aglietti G.S., Tatnall A.R.L. ActaAstronaut, 2010, no. 66, рp. 13–32.
- Hickey G., Barbee T., Ealey M., Redding D. Proc. SPIE, 2010, no. 7731, рp.773120–1–12.
- Lillie C.F.,Polidan R.S.,Dailey D.R.Proc. SPIE, 2010, no. 7731, рp. 773102–09.
- Feinberg L., Cohen L.,Dean B., Hayden W., Howard J., Keski-Kuha R. Optical Engineering, 2012, no. 1(51), рp. 011006–1–10.
- Kleymenov V.V., Novikova E.V. JournalofOpticalTechnology,1998, no. 6(65), рp. 3–15. (in Russ.)
- Matson L.E., Mollenhauer D.H. The AMPTIAC Quarterly, 2004, no. 1(8), рp. 67–74.
- Love G., Saxena A.K.Current Science, 1994, no. 5(66), рp. 349–355.
- Laslandes M., Ferrari M., Hugot E., Lemaitre G. Proc. SPIE, 2010, no. 7739, рp. 77393A–1–12.
- Zhang Ge, Zhao Rucheng, Zhao Wenxing. Proc. SPIE, 2007, no. 6721, рp. 67210B–1–5. DOI: 10.1117/2.1201607.006582.
- Haeng-Bok Lee, Jin-Young Suk, Jong-In Bae.Proc. SPIE, 2015, no. 9574, рp. 95740D–1–12.
- Abdulkadyrov M.A., Belousov S.P., Patrikeev V.E., Semenov A.P. Proc. SPIE,2010, no. 7739,рp. 77390P–1–10.
- Jedamzik R., Kunisch C., Westerhoff T.Proc. of SPIE, 2013, no. 8860, рp. 88600P–1–8.
- Hull T., Westerhoff T. Proc. SPIE, 2014, no. 9143, рp. 91431V–1–11.
- Williams S., Deny P. Proc. SPIE,2005, no. 5868, рp. 586804. DOI:10.1117/12.617824.
- Castel D., Sein E., Lorez S., Nakagawa T., Bougoin M. Proc. SPIE, 2012, no. 8450, рp. 84502P–1–13.
- Kotani M., Imai T., Katayama H., Yui Y., Tange Y., Kaneda H., Nakagawa T., Enya K. Applied Optics, 2013, no. 20(52), рp. 4797–4805.
- Kotani M., Imai T., Katayama H., Yui Y., Tange Y., Kaneda H., Nakagawa T., Enya K. Applied Optics, 2013, no. 26(52), рp. 6458–6466.
- Kaneda H., Onaka T., Kawada M., Murakami H. Applied Optics, 2003, no. 4(42), рp. 708–714.
- Sein E., Toulemont Y., Safa F., Duran M., Deny P., Chambure D. de, Passvogel T., Pilbratt G. L. Proc. SPIE, 2003, no. 4850, рp. 606–618.
- Bath D.A., Spain D., Ness E., Williams S., Bougoin M. Proc. SPIE, 2005, no. 5868, рp. 586805–1–8.
- Hanisch R.J. Proc. SPIE, 1994, no. 2198, рp. 1349–1354.
- Cox C., Lallo M. Proc. SPIE,2012, no. 8442, рp. 844237–1–7.
- Hubble Breaks Cosmic Distance Record, http://www.spacetelescope.org/news/heic1604/.
- Ingalls J.G., Carey S.J., Lowrance P.J., Grillmair C.J., Stauffer J.R. Proc. SPIE,2014, no. 9143, рp. 91431M–1–11.
- Bougoin M., Lavenac J. Proc. of SPIE, 2011, no. 8126, рp. 81260V–1–9.DOI:10.1117/12.893704.
- Meet the James Webb Space Telescope, Time Machine Extraordinaire, http://astrobob.areavoices.com/2013/06/16/meet-the-james-webb-space-telescope-time-machine-extraordinaire/, 2013.
- Nakagawa T. Advances in Space Research. 2004, no. 34, рp. 645–650.
- Nakagawa T., Shibai H., Onaka T., Matsuhara H., Kaneda H., Kawakatsu Y., Roelfsema P. Proc. SPIE,2014, no. 9143, рp. 91431I–1–9.
- Nakagawa T., Matsuhara H., Kawakatsu Y.Proc. SPIE. 2012, no. 8442, рp. 84420O–1–9.
- Prusti T. Proc. SPIE, 2014, no. 9143, рp. 914310–1.
- Mora A., Vosteen A.Proc. SPIE,2012, no. 8442, рp. 84421Q–1–14.
- Clampin M.Proc. SPIE,2014, no. 9143, рp. 914302–1–5.
- Lightsey P.A., Atkinson C., Clampin M., Feinberg L.D. Optical Engineering, 2012, no. 1(51), рp. 011003–011003–20.
- Scott Acton D., Scott Knight J., Contos A., Grimaldi S., Terry J., Lightsey P., Barto A., League B., Dean B., Scott Smith J., Bowers Ch., Aronstein D., Feinberg L., Hayden W., Comeau T., Soummer R., Elliott E., Perrin M., Starr C.W.Proc. SPIE,2012, no. 8442, рp. 84422H–1–11.
- Killian M. James Webb Space Telescope Flight Instruments and Primary Mirror Segments Ready for Assembly, http://www.americaspace.com/?p=51561.
- AtkinsonC., Texter S., Keski-Kuha R., Feinberg L. Proc. SPIE, 2016, no. 9904. DOI:10.1117/12.2232649.
- MatthewsG.W., Whitman T.L.,FeinbergL.D.,VoytonM.F.,LanderJ.A.,Keski-Kuha R.Proc. SPIE,2016, no. 9904. DOI:10.1117/12.2232040.
- FeinbergL., Voyon M., Lander J., Keski-Kuha R., Matthews G.Proc. SPIE,2016, no. 9904. DOI:10.1117/12.2231453.
- Glassman T.,Levi J.,LiepmannT.,HahnW.,Bisson G.;Porpora D.,Hadjimichael Th.Proc. SPIE,2016, no. 9904. DOI:10.1117/12.2233792.
- Polidan R.S., Breckinridge J.B., MacEwen H.A., Flannery M.R., Dailey D.R. Proc. SPIE,2014, no. 9143, рp. 914319–1–10.
- Redding D.C., Feinberg L., Postman M., Stahle C., Thronson H. Proc. SPIE,2014, no. 9143, рp. 914312–1–10.
- Redding D.C., Hickey G., Agnes G., Eisenhardt P., Green J.J., Krist J., Peterson L., Stapelfeldt K., Traub W., Unwin S., Werner M.Active optics for a 16-meter Advanced Technology Large Aperture Space Telescope, http://www.stsci.edu/institute/atlast/documents/Redding_23-ATLAS16_SPIE_v7.pdf.
- Thronson H., Bolcar M.R., Crooke J., Feinberg L., Oegerle W., Rioux N., Stahl H.P., Stapelfeldt K. J. Astron. Telesc. Instrum. Syst.,2016, no. 4(2), рp. 041210. DOI:10.1117/1.JATIS.2.4.041210.
- Postman M., Brown T., Sembach K., Giavalisc M., Traub W., Stapelfeldt K., Calzetti D., Oegerle W., Michael Rich R.,Phillip Stahl H., Tumlinson J., Mountain M., Soummer R., Hyde T. Optical Engineering, 2012, no. 1(51), рp. 011007–011007–12.
- Bolcar M.R., Balasubramanian K., Clampin M., Crooke J., Feinberg L., Postman M., Quijada M., Rauscher B., Redding D., Rioux N., Shaklan S., Stahl H.P., Stable K., Thronson H.Proc. SPIE,2015, no. 9602, рp. 960209–1–14.
- AlalufD., BastaitsR., WangK., HorodincaM., Burda I. et al.Proc. SPIE, 2016, no. 9909. DOI:10.1117/12.2231702.
- Abdula P.A., Tolstoba N.D. Proc. SPIE. 2016, no. 9889. DOI:10.1117/12.2227889.
- ButovaD.V., TolstobaN.D., Fleysher A.G.,Orekhova M.K.Proc. SPIE,2017, no. 10100. DOI:10.1117/12.2251230.