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Stellar Absolute Fluxes and Energy Distributions from 0.32 to 4.0 μM

Published online by Cambridge University Press:  04 August 2017

D. S. Hayes
D. S. Hayes*
Affiliation:
Kitt Peak National Observatory, National Optical Astronomy Observatories1

Abstract

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The absolute fluxes and energy distributions of stars are the foundation of the calibration of fundamental effective temperatures and bolometric corrections. In this paper I will review recent progress in the calibration of absolute fluxes and energy distributions in the visual and IR parts of the spectrum. In the visual, the calibration of the absolute flux and energy distribution of Vega has settled down well, and the remaining difficulties include the lack of a worldwide common list of brighter secondary standard stars, the lack of enough satisfactory fainter secondary standard stars and the possibility of variability in Vega. In the IR, the process of arriving at a dependable and accurate calibration, and of linking it to commonly used photometric systems, is in its infancy. A final, and rather special problem, is the question of the calibration of the Sun. The Sun is a special case both because it is so well studied astrophysically and because its extreme brightness makes it very difficult to calibrate photometrically. Some progress has recently been made on the calibration of the absolute flux and energy distribution of the Sun, and I will discuss this work.

Type
1. Review Papers
Information
Symposium - International Astronomical Union , Volume 111: Calibration of Fundamental Stellar Quantities , 1985 , pp. 225 - 252
Copyright
Copyright © Reidel 1985 

References

Allen, D.A. and Cragg, T.A. 1983, Mon. Not. R. Astron. Soc., 203, 777.CrossRefGoogle Scholar
Arkharov, A.A. and Terez, È.I. 1982, preprint.Google Scholar
Arvesen, J.C., Griffin, R.N. Jr., and Pearson, D.B. Jr. 1969, Appl. Optics, 8, 2215.Google Scholar
Ažusienis, A. and Straižys, V. 1966, Bull. Vilnius Obs., No. 16, 3.Google Scholar
Baldwin, J.A. and Stone, R.P.S. 1984, Mon. Not. R. Astron. Soc., 206, 241.Google Scholar
Barker, E.S., Lambert, D.L., Tomkin, J. and Africano, J. 1978, Publ. Astr. Soc. Pacific, 90, 514.CrossRefGoogle Scholar
Batten, A.H. 1985a, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 3.Google Scholar
Batten, A.H. 1985b, Discussion following paper by McAlister (1985).Google Scholar
Breger, M. 1976, Astrophys. J. Suppl., 32, 1.Google Scholar
Blackwell, D.E., Leggett, S.K., Petford, A.D., Mountain, C.M. and Selby, M.J. 1983, Mon. Not. R. Astron. Soc., 205, 897.CrossRefGoogle Scholar
Burnashev, V. 1984, Std. Star Newslett., No. 4, 5.Google Scholar
Buser, R. 1978a, Astron. Astrophys., 62, 411.Google Scholar
Buser, R. 1978b, Astron. Astrophys., 62, 425.Google Scholar
Buser, R. and Kurucz, R.L. 1978, Astron. Astrophys., 70, 555.Google Scholar
Buser, R. and Kurucz, R.L. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 513.Google Scholar
Code, A.D. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 209.Google Scholar
Davis, J. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 193.Google Scholar
Duncan, C.H. 1969, GSFC Report No. X-713-69-382 (Greenbelt).Google Scholar
Elias, J.H., Frogel, J.A., Matthews, K. and Neugebauer, G. 1982, Astron. J., 87, 1029.Google Scholar
Fröhlich, C. 1983, Appl. Optics, 22, 3928.Google Scholar
Fröhlich, C. and Wehrli, C. 1982, in Proceedings, Third Scientific Assembly of IAMAP, Hamburg, 1981; The Symposium on the Solar Constant and the Spectral Distribution of Solar Irradience, (Boulder).Google Scholar
Gallouët, L. 1964, Ann. d'Astrophys., 27, 423.Google Scholar
Glass, I.S. 1973, Mon. Not. R. Astron. Soc., 164, 155.Google Scholar
Glass, I.S. 1974a, Mon. Not. Astron. Soc. S. Africa, 33, 53.Google Scholar
Glass, I.S. 1974b, Mon. Not. Astron. Soc. S. Africa, 33, 71.Google Scholar
Glushneva, I.N. 1983a, Inform. Bull. CDS, No. 24, 7.Google Scholar
Glushneva, I.N. 1983b, Std. Star Newslett., No. 3, 10.Google Scholar
Glushneva, I.N. and Ovchinnikov, S.L. 1983, Soviet Astron., 26, 548.Google Scholar
Griffin, R. and Griffin, R. 1978, Publ. Astr. Soc. Pacific, 90, 518.CrossRefGoogle Scholar
Gustafsson, B. and Graae-Jørgensen, U. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 303.Google Scholar
Guthnick, P. 1918, Veroff. Berlin-Babelsberg, II, 91.Google Scholar
Guthnick, P. 1930a, Vierteljahrschrift den Astro. Gesellshaft, 51, 79.Google Scholar
Guthnick, P. 1930b, Sitzungsberichte den Akad. Wiss. Berlin (Phys. Math. Klasse), I, 3.Google Scholar
Guthnick, P. 1930c, Sitzungsberichte den Akad. Wiss. Berlin (Phys. Math. Klasse), I, 495.Google Scholar
Guthnick, P. 1931, Sitzungsberichte den Akad. Wiss. Berlin (Phys. Math. Klasse), II, 22.Google Scholar
Hanbury Brown, R. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 185.Google Scholar
Hardorp, J. 1980, Astron. Astrophys., 91, 221.Google Scholar
Hayes, D.S. 1970, Astrophys. J., 159, 165.Google Scholar
Hayes, D.S. 1975, in: Multicolor Photometry and the Theoretical HR Diagram, ed. Davis Philip, A.G. and Hayes, D.S., (Dudley Obs. Rept. No. 9), p. 309.Google Scholar
Hayes, D.S. 1978, in: IAU Symposium No. 80, The HR Diagram, ed. Davis Philip, A.G. and Hayes, D.S., (Reidel: Dordrecht), p. 65.Google Scholar
Hayes, D.S. 1979a, in: Problems of Calibration of Multicolor Photometric Systems, ed. Davis Philip, A.G., (Dudley Obs. Rept. No. 14), p. 223.Google Scholar
Hayes, D.S. 1979b, in: Problems of Calibration of Multicolor Photometric Systems, ed. Davis Philip, A.G., (Dudley Obs. Rept. No. 14), p. 297.Google Scholar
Hayes, D.S., Joyce, R.R., Ridgway, S.T., Rinsland, C.P. and Wing, R.F. 1980, Bull. Amer. Astr. Soc., 12, 837.Google Scholar
Hayes, D.S. and Latham, D.W. 1975, Astrophys. J., 197, 593.Google Scholar
Hayes, D.S., Latham, D.W. and Hayes, S.H. 1975, Astrophys. J., 197, 587.Google Scholar
Hayes, D.S., Oke, J.B. and Schild, R.E. 1970, Astrophys. J., 162, 361.Google Scholar
Hayes, D.S. and Philip, A.G.D. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 469.Google Scholar
Hayes, D.S. and Philip, A.G.D. 1985, Astrophys. J. Suppl., 53, 759.Google Scholar
Hayes, D.S., Wing, R.F., Ridgway, S.T., Joyce, R.R. and Rinsland, C.P. 1983, Std. Star Newslett., No. 2, 9.Google Scholar
Ipatov, A.P. 1982, Soviet Astron., 26, 368.Google Scholar
Johnson, H.L. 1966, in: Ann. Rev. Astron. Astrophys., 4, 193.Google Scholar
Johnson, H.L. 1980, Rev. Mex. Astron. Astrofis., 5, 25.Google Scholar
Johnson, H.L. and Wisniewski, W.Z. 1978, Publ. Astr. Soc. Pacific, 90, 139.Google Scholar
Joyce, R.R., Probst, R.G. and Guetter, H.H. 1984, Bull. Amer. Astron. Soc., 16, 497.Google Scholar
Kharitonov, A.V., Tereshchenko, V.M., Knyazeva, L.N. and Boiko, P.N. 1980, Soviet Astron., 24, 168.Google Scholar
Kharitonov, A.V., Tereshchenko, V.M., Knyazeva, L.N. and Boiko, P.N. 1980, Soviet Astron., 24, 417.Google Scholar
Kharitonov, A.V. and Glushneva, I.N. 1978, Soviet Astron., 22, 284.Google Scholar
Koorneef, J. 1983, Astron. Astrophys., 128, 84.Google Scholar
Kozyreva, V.S., Moshkalev, V.G. and Khaliullin, Kh. F. 1981, Soviet Astron., 25, 705.Google Scholar
Kurucz, R.L. 1979, Astrophys. J. Suppl., 40, 1.Google Scholar
Labs, D. 1975, in: Problems in Stellar Atmospheres and Envelopes, ed. Baschek, B., Kegel, W.H. and Traving, G. (Springer-Verlag, Berlin), p. 1.Google Scholar
Labs, D. and Neckel, H. 1968, Z. für Astrophys., 69, 1.Google Scholar
Labs, D. and Neckel, H. 1970, Solar Phys., 15, 79.Google Scholar
Makarova, Ye. A. and Kharitonov, A.V. 1972, Distribution of Energy in the Solar Spectrum and the Solar Constant, Nauka Publishing House, Moscow, (English Translation: NASA Technical Translation TT F-803, National Aeronautics and Space Administration, Washington, D.C., June 1974).Google Scholar
Makarova, Ye. A. and Kharitonov, A.V. 1976, Soviet Astron., 19, 585.Google Scholar
Martynov, D. Ya. 1960, Soviet Astron., 3, 633.Google Scholar
McAlister, H.A. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 97.Google Scholar
Mihalas, D. 1975, in: Multicolor Photometry and the Theoretical HR Diagram, ed. Davis Philip, A.G. and Hayes, D.S., (Dudley Obs. Rept. No. 9), p. 241.Google Scholar
Neckel, H. 1984, Space Sci. Rev., 38, 87.Google Scholar
Neckel, H. and Labs, D. 1973, in: IAU Symposium No. 54, Problems of Calibration of Absolute Magnitudes and Temperatures of Stars, ed. Hauck, B. and Westerlund, B.E., (Reidel: Dordrecht), p. 149.Google Scholar
Neckel, H. and Labs, D. 1981, Solar Phys., 74, 231.Google Scholar
Neckel, H. and Labs, D. 1984, Solar Phys., 90, 205.Google Scholar
Neckel, H. and Labs, D. 1985, in: IAU Symposium No. 111: Calibration of Fundamental Stellar Quantities, ed. Hayes, D.S., Pasinetti, L.E. and Davis Philip, A.G., (Reidel: Dordrecht), p. 473.Google Scholar
Nikonova, E.K. 1949, Izv. Krymsk. Astrofiz. Observ., 4, 114.Google Scholar
Oke, J.B. and Gunn, J.E. 1983, Astrophys. J., 266, 713.Google Scholar
Oke, J.B. and Schild, R.E. 1970, Astrophys. J., 161, 1015.Google Scholar
Perrin, M.N. and Spite, M. 1981, Astron. Astrophys., 94, 207.Google Scholar
Pierce, A.K. and Allen, R.G. 1977, in: The Solar Output and its Variation, ed. White, O.R. (Colorado Assoc. U. Press, Boulder), p. 169.Google Scholar
Preski, R.J. 1970, Goodyear Aerospace Corp. Memorandum, SP-7276.Google Scholar
Selby, M.J., Mountain, C.M., Blackwell, D.J., Petford, A.D. and Leggett, S.K. 1983, Mon. Not. R. Astron. Soc., 203, 795.Google Scholar
Shaw, G.E. 1982, Appl. Optics, 21, 2006.Google Scholar
Shaw, G.E. and Fröhlich, C. 1979, in Solar-Terrestrial Influences on Weather and Climate, ed. McCormac, B. and Seliga, B. (Reidel: Dordrecht), p. 69.Google Scholar
Stebbins, J. and Kron, G.E. 1957, Astrophys. J., 126, 226.Google Scholar
Stone, R.P.S. 1974, Astrophys. J., 193, 135.CrossRefGoogle Scholar
Stone, R.P.S. 1977, Astrophys. J., 218, 767.Google Scholar
Stone, R.P.S. and Baldwin, J.A. 1983, Mon. Not. R. Astron. Soc., 204, 347.Google Scholar
Straižys, V. and Sviderskienė, Z. 1972, Bull. Vilnius Obs. No. 35, 3.Google Scholar
Taylor, B.J. 1984a, Astrophys. J. Suppl., 54, 167.Google Scholar
Taylor, B.J. 1984b, Astrophys. J. Suppl., 54, 259.Google Scholar
Terez, È.I. 1982, preprint.Google Scholar
Terez, G.A. and Terez, È.I. 1979, Soviet Astron., 23, 449.Google Scholar
Tüg, H., White, N.M. and Lockwood, G.W. 1977, Astron. Astrophys., 61, 679.Google Scholar
Tüg, H. and Schmidt-Kaler, T. 1982, Astron. Astrophys., 105, 400.Google Scholar
Voloshina, I.B., Glushneva, I.N. and Shevarin, V.I. 1980, Soviet Astron., 24, 576.Google Scholar
Walker, G.A.H. 1985, private communication.Google Scholar
Walker, R.G. 1969, Phil. Trans. R. Soc. London, A, 264, 209.Google Scholar
Wamsteker, W. 1981, Astron. Astrophys., 97, 329.Google Scholar
Wisniewski, W.Z. and Johnson, H.L. 1979, Sky and Tel., 57, 4.Google Scholar
Wolff, S.C. 1983, The A-Stars: Problems and Perspectives (NASA: Washington, D.C.).Google Scholar