Free Access
Volume 645, January 2021
Article Number A32
Number of page(s) 14
Section Astronomical instrumentation
Published online 24 December 2020
  1. Banyal, R. K., & Ravindra, B. 2011, New Astron., 16, 328 [CrossRef] [Google Scholar]
  2. Bely, P. 2006, The Design and Construction of Large Optical Telescopes (New York: Springer), Astron. Astrophys. Lib. [Google Scholar]
  3. Berdahl, P., & Fromberg, R. 1982, Sol. Energy, 29, 299 [CrossRef] [Google Scholar]
  4. Bönsch, G., & Potulski, E. 1998, Metrologia, 35, 133 [NASA ADS] [CrossRef] [Google Scholar]
  5. Braden, B. 1986, College Math. J., 17, 326 [CrossRef] [Google Scholar]
  6. Buck, A. L. 1981, J. Appl. Meteorol., 20, 1527 [NASA ADS] [CrossRef] [Google Scholar]
  7. Chaves, J. 2017, Introduction to Nonimaging Optics (CRC Press) [CrossRef] [Google Scholar]
  8. Cho, M., Corredor, A., Vogiatzis, K., & Angeli, G. 2011, in Proc. SPIE, eds. T. Andersen, & A. Enmark, Int. Soc. for Opt. and Phot. (SPIE), 8336, 325 [Google Scholar]
  9. Churchill, S. W., & Bernstein, M. 1977, ASME Trans. J. Heat Trans., 99, 300 [CrossRef] [Google Scholar]
  10. Clough, S. A., Shephard, M. W., Mlawer, E. J., et al. 2005, J. Quant. Spectr. Rad. Transf., 91, 233 [NASA ADS] [CrossRef] [MathSciNet] [Google Scholar]
  11. Cullum, M. J., & Spyromilio, J. 2000, in Proc. SPIE, eds. T. Sebring, & T. Andersen, Int. Soc. for Opt. and Phot. (SPIE), 4004, 194 [CrossRef] [Google Scholar]
  12. Fourier, J. 1822, Théorie Analytique de la Chaleur (Paris: Firmin Didot Pére et Fils), OCLC 2688081 [Google Scholar]
  13. Gliah, O., Kruczek, B., Etemad, S. G., & Thibault, J. 2011, Heat Mass Trans., 47, 1171 [CrossRef] [Google Scholar]
  14. Jones, A., Noll, S., Kausch, W., Szyszka, C., & Kimeswenger, S. 2013, A&A, 560, A91 [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
  15. Kausch, W., Noll, S., Smette, A., et al. 2015, A&A, 576, A78 [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
  16. Kerber, F., Rose, T., Chacón, A., et al. 2012, Proc. SPIE, 8446, 84463N [CrossRef] [Google Scholar]
  17. Koehler, B. 2015, E-ELT Environmental Conditions (ESO-191766), Tech. Rep. (Garching, Germany: ESO), (internal document) [Google Scholar]
  18. Ladd, J., Slotnick, J., Norby, W., Bigelow, B., & Burgett, W. 2016, in Proc. SPIE, eds. G. Z. Angeli, & P. Dierickx, Int. Soc. for Opt. and Phot. (SPIE), 9911, 439 [Google Scholar]
  19. Lakićević, M., Kimeswenger, S., Noll, S., et al. 2016, A&A, 588, A32 [NASA ADS] [CrossRef] [EDP Sciences] [PubMed] [Google Scholar]
  20. Li, M., Jiang, Y., & Coimbra, C. F. M. 2017, Sol. Energy, 144, 40 [CrossRef] [Google Scholar]
  21. Li, M., Liao, Z., & Coimbra, C. F. M. 2018, J. Quant. Spectr. Rad. Transf., 209, 196 [CrossRef] [Google Scholar]
  22. Lienhard, J. H. 2011, A Heat Transfer Textbook, Dover Books on Engineering (Dover Publications) [Google Scholar]
  23. Martinez, I. 2020a, Heat and mass convection: Boundary layer flow, [Google Scholar]
  24. Martinez, I. 2020b, Forced and Natural Convection, [Google Scholar]
  25. Mason, J. J., & Brendel, T. A. 1982, in Optical Coatings for Energy Efficiency and Solar Applications, ed. C. M. Lampert, Int. Soc. Opt. Photonics (SPIE), 0324, 139 [CrossRef] [Google Scholar]
  26. Milli, J., Kasper, M., Bourget, P., et al. 2018, Proc. SPIE, 10703 [Google Scholar]
  27. Noll, S., Kausch, W., Barden, M., et al. 2012, A&A, 543, A92 [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
  28. Oser, M., Ladd, J., Khodadoust, A., Bigelow, B., & Burgett, W. 2018, in Proc. SPIE, eds. G. Z. Angeli, & P. Dierickx, Int. Soc. for Opt. and Phot. (SPIE), 10705, 30 [Google Scholar]
  29. Otárola, A., Travouillon, T., Schöck, M., et al. 2010, PASP, 122, 470 [NASA ADS] [CrossRef] [Google Scholar]
  30. Otárola, A., De Breuck, C., Travouillon, T., et al. 2019, PASP, 131, 045001 [NASA ADS] [CrossRef] [Google Scholar]
  31. Pedrotti, F. L., & Pedrotti, L. S. 1993, Introduction to Optics (Prentice Hall) [Google Scholar]
  32. Racine, R., Salmon, D., Cowley, D., & Sovka, J. 1991, PASP, 103, 1020 [NASA ADS] [CrossRef] [Google Scholar]
  33. Rogalski, A. 2019, Infrared and Terahertz Detectors, 3rd edn. (CRC Press) [CrossRef] [Google Scholar]
  34. Rothman, L. S., Gordon, I. E., Barbe, A., et al. 2009, J. Quant. Spectr. Rad. Transf., 110, 533 [NASA ADS] [CrossRef] [Google Scholar]
  35. Sarazin, M. 2017, ESO-281474 Document Version 2 [Google Scholar]
  36. Sauvage, J., Fusco, T., Guesalaga, A., et al. 2015, Adaptive Optics for Extremely Large Telescopes, 1, 4 [Google Scholar]
  37. Smette, A., Sana, H., Noll, S., et al. 2015, A&A, 576, A77 [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
  38. Sun, X., Sun, Y., Zhou, Z., Alam, M. A., & Bermel, P. 2017, Nanophotonics, 6, 20 [CrossRef] [Google Scholar]
  39. Sundén, B., Mander, U., & Brebbia, C. 2010, Advanced Computational Methods and Experiments in Heat Transfer XI, WIT Transactions on Engineering Sciences (WIT Press) [Google Scholar]
  40. Valencia, J. J., & Quested, P. N. 2010, Metals Process Simulation (ASM International), 18 [Google Scholar]
  41. Vogiatzis, K., Sadjadpour, A., & Roberts, S. 2014, in Proc. SPIE, eds. G. Z. Angeli, & P. Dierickx, Int. Soc. for Opt. and Phot. (SPIE), 9150, 383 [Google Scholar]
  42. Vogiatzis, K., Das, K., Angeli, G., Bigelow, B., & Burgett, W. 2018, in Proc. SPIE, eds. G. Angeli, & P. Dierickx, Int. Soc. for Opt. and Phot. (SPIE), 10705, 279 [Google Scholar]
  43. Wilson, R. 2013, Reflecting Telescope Optics II: Manufacture, Testing, Alignment, Modern Techniques, Astronomy and Astrophysics Library (Springer) [Google Scholar]
  44. Yarbrough, D. W. 2010, Evaluation of Coatings for Use as Interior RadiationControl Coatings, Tech. Rep. (RIMA, R&D Services, Inc.), [Google Scholar]
  45. Yoshii, Y., Aoki, T., Doi, M., et al. 2010, Proc. SPIE, 7733, 773308 [CrossRef] [Google Scholar]
  46. Zhao, D., Aili, A., Zhai, Y., et al. 2019, Appl. Rev. Phys., 6, 021306 [CrossRef] [Google Scholar]

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