Artículos de revistas
The New 30 Thz Solar Telescope In São Paulo, Brazil
Registro en:
Solar Physics. Kluwer Academic Publishers, v. 290, n. 8, p. 2373 - 2379, 2015.
380938
10.1007/s11207-015-0749-1
2-s2.0-84942839014
Institución
Resumen
It has been found that solar bursts exhibit one unexpected spectral component with fluxes increasing with frequency in the sub-THz range, which is distinct from the well-known microwave emission that peaks at a few to some tens of GHz. This component has been found to extend into the THz range of frequencies by recent 30 THz solar flare observations of impulsive bursts with flux intensities considerably higher than fluxes at sub-THz and microwaves frequencies. High-cadence solar observations at 30 THz (continuum) are therefore an important tool for the study of active regions and flaring events. We report the recent installation of a new 30 THz solar telescope in São Paulo, located at the top of one of the University’s buildings. The instrument uses a Hale-type coelostat with two 20 cm diameter flat mirrors sending light to a 15 cm mirror Newtonian telescope. Radiation is directed to a microbolometer array camera that is kept at room temperature. Observations are usually obtained with 5framess−1$5~\mbox{frames}\,\mbox{s}^{-1}$ cadence. One 60 mm refractor has been added to observe Hα$\mathrm{H}\upalpha$ images simultaneously. We describe our new telescopes and the new observatory examples of the first results obtained. © 2015, Springer Science+Business Media Dordrecht. 290 8 2373 2379 Cassiano, M.M., Kaufmann, P., Marcon, R., Kudaka, A.S., Marun, A., Godoy, R., Pereyra, P., Levato, H., (2010) Solar Phys., 264, p. 71 Dhar, N.K., Dat, R., Sood, A.K., (2013) Optoelectronics – Advanced Materials and Devices, , Pyshkin S.L., Ballato J.M., (eds), Intech Books, Croatia: Chapter 7 Fleishman, G.F., Kontar, E.P., (2010) Astrophys. J. Lett., 709 Gezari, D., Livingston, W., Varosi, F., (1999) High Resolution Solar Physics: Theory, Observations, and Techniques, p. 559. , Rimmele T.R., Balasubramaniam S., Radick R.R., (eds), ASP Conf. Ser., 183 Hudson, H.S., (1975) Solar Phys., 45, p. 69 Kaufmann, P., Raulin, J.-P., de Castro, C.G., Levato, H., Gary, D.E., Costa, J.E., Marun, A., Correia, E., (2004) Astrophys. J. Lett., 603 Kaufmann, P., Levato, H., Cassiano, M.M., Correia, E., Costa, J.E., Giménez de Castro, C.G., Godoy, R., Marun, A., (2008) Ground-Based and Airborne Telescopes II, p. 70120L. , Stepp L.M., Gilmozzi R., (eds), Proc. SPIE, 7012 Kaufmann, P., Giménez de Castro, C.G., Correia, E., Costa, J.E., Raulin, J.P., Válio, A.S., (2009) Solar Phys., 255, p. 131 Kaufmann, P., White, S.M., Freeland, S.L., Marcon, R., Fernandes, L.O., Kudaka, A.S., de Souza, R.V., Giménez de Castro, C.G., (2013) Astrophys. J. Lett., 768 (2015) J. Geophys. Res., , Kaufmann, P., White, S.M., Marcon, R., Kudaka, A.S., Cabezas, D., Cassiano, M.M., Francile, C., Fernandes, L.O.T., Hidalgo Ramirez, R.F., Luoni, M., Marun, A., Pereyra, P., de Souza, R.V., in press Klopf, M.J., Kaufmann, P., Raulin, J.-P., Szpigel, S., (2014) Astrophys. J., 791, p. 31 Kraus, J.D., (1986) Radio Astronomy, , Cygnus-Quasar Books, Powell: Section 6-2 Krucker, S., Giménez de Castro, C.G., Hudson, H.S., Trottet, G., Bastian, T.S., Hales, A.S., Kasparová, J., White, S.M., (2013) Astron. Astrophys. Rev., 21, p. 58 Lindsey, C.A., (1977) Solar Phys., 52, p. 263 Lindsey, C., Heasley, J.N., (1981) Astrophys. J., 247, p. 348 (1992) A New Software Tool for Computing Earth Atmosphere Transmission of nNar- and Far-Infrared Radiation. NASA TM-103957, , Lord, S.D Marcon, R., Kaufmann, P., Melo, A.M., Kudaka, A.S., Tandberg-Hanssen, E., (2008) Publ. Astron. Soc. Pac., 120, p. 16 Melo, A.M., Kaufmann, P., Kudaka, A.S., Raulin, J.-P., Marcon, R., Marun, A., Pereyra, P., Levato, H., (2006) Publ. Astron. Soc. Pac., 118, p. 1558. , Addendum: 2009, Publ. Astron. Soc. Pacific, 121, 1296 (2015) Astron. Astrophys., , Miteva, R., Kaufmann, P., Cabezas, D.P., Cassiano, M.M., Fernandes, L.O.T., Freeland, S.L., Karlický, M., Kerdraon, A., Kudaka, A.S., Luoni, M.L., Marcon, R., Raulin, J.-P., Trottet, G., White, S.M Sakai, J.I., Nagasugi, Y., Saito, S., Kaufmann, P., (2006) Astron. Astrophys., 457, p. 313 Shklovsky, J., (1964) Nature, 202, p. 275 Silva, A.V.R., Share, G.H., Murphy, R.J., Costa, J.E., de Castro, C.G., Raulin, J.-P., Kaufmann, P., (2007) Solar Phys., 245, p. 311 Stein, W.A., Ney, E.P., (1963) J. Geophys. Res., 68, p. 65 Trottet, G., Krucker, S., Lüthi, T., Magun, A., (2008) Astrophys. J., 678, p. 509 Turon, J.P., Léna, P.J., (1970) Solar Phys., 14, p. 112 Xu, Y., Cao, W., Liu, C., Yang, G., Jing, J., Denker, C., Emslie, A.G., Wang, H., (2006) Astrophys. J., 641, p. 1210