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Global Properties of Nearby Galaxies

Published online by Cambridge University Press:  26 July 2016

M. Capaccioli ,
N. Caon  and
M. D'onofrio
M. Capaccioli
Affiliation:
Capodimonte Astronomical Observatory, Via Moiariello 16, I-80131 Napoli, Italy Astronomy Department, Padova University, I-35122 Padova, Italy
N. Caon
Affiliation:
International School for Advanced Studies, Via Beirut 2, I-34014 Trieste, Italy
M. D'onofrio
Affiliation:
Astronomy Department, Padova University, I-35122 Padova, Italy

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Surface photometry of nearby galaxies is among the research areas that gained most from the recent advances in ‘wide-field imaging’. In fact, the demand for an accurate measure of the night-sky level all around the target galaxy — a key step in galaxy surface photometry; see Fig. 1 in Capaccioli & de Vaucouleurs (1983) — calls for at least some images covering a field wider than the size of the object under study. So far, the small field of most CCD cameras attached to the Cassegrain foci of medium-size telescopes has prevented both the mapping of the galaxian outskirts and, a fortiori, a direct measurement of the sky background μs on the galaxy image itself. Indirect methods to estimate μs — blank-sky exposures, matching of growth curves to photoelectric integrated magnitudes, assumptions on the shape of the galaxian light profiles — have proven ineffective and/or methodologically questionable (Capaccioli 1989). Until large-format CCD chips or mosaics are routinely used, the only way out of these problems is either the use of focal reducers, whose optical complexity may however be incompatible with photometric accuracy, or of large-field photographic plates.

Type
Part Twelve: Properties of Nearby Galaxies
Information
Symposium - International Astronomical Union , Volume 161: Astronomy from Wide-Field Imaging , 1994 , pp. 559 - 566
Copyright
Copyright © Kluwer 1994 

References

Bender, R., Surman, P., Döbereiner, S., Möllenhoff, C. and Madejsky, R., 1989. Astron. Astrophys., 217, 35.Google Scholar
Binggeli, B., Sandage, A. and Tammann, G., 1988. Ann. Rev. Astron. Astrophys., 26, 509.Google Scholar
Burkert, A., 1993. Mon. Not. R. astron. Soc., submitted.Google Scholar
Caon, N., Capaccioli, M. and Rampazzo, R., 1990. Astron. Astrophys. Suppl., 86, 429.Google Scholar
Caon, N., Capaccioli, M. and D'Onofrio, M., 1993. Astron. Astrophys. Suppl., submitted.Google Scholar
Capaccioli, M., 1989. In Second Extragalactic Astronomy Regional Meeting, Academia de Ciencias, Cordoba, p. 317.Google Scholar
Capaccioli, M., and Caon, N., 1989. In First ESO/ST-ECF Data Analysis Workshop, eds. Grosb⊘l, P.J., Murtagh, F. and Warmels, R.H., ESO, Garching, p. 107.Google Scholar
Capaccioli, M. and de Vaucouleurs, G., 1983. Astrophys. J. Suppl., 52, 465.Google Scholar
Capaccioli, M., Held, E.V. and Nieto, J.-L., 1987. Astron. J., 94, 1519.Google Scholar
Capaccioli, M., Piotto, G.P. and Rampazzo, R., 1988. Astron. J., 96, 497.Google Scholar
Capaccioli, M., Caon, N. and Rampazzo, R., 1990a. Mon. Not. R. astron. Soc., 242, 24p.Google Scholar
Capaccioli, M., Held, E.V., Lorenz, H. and Vietri, M., 1990b. Astron. J., 99, 1813.Google Scholar
Capaccioli, M., Vietri, M., Held, E.V. and Lorenz, H., 1990c. Astrophys. J., 371, 535.Google Scholar
Capaccioli, M., Caon, N., D'Onofrio, M and Trevisani, S., 1992. In ‘New Results on Standard Candles’, Mem. SAIt, ed. Caputo, F., 63, p. 509.Google Scholar
Capaccioli, M., Caon, N. and D'Onofrio, M., 1993. In Proc. ESP/EIPC Workshop on ‘Structure, Dynamics and Chemical Evolution of Elliptical Galaxies’, eds. Danziger, I.J., Zeilinger, W.W. and Kjär, K., ESO, Garching, p. 43.Google Scholar
Carter, D., 1987. Astrophys. J., 312, 514.Google Scholar
de Carvalho, R.R. and Djorgovski, S., 1992. Astrophys. J., 389, L49.Google Scholar
de Vaucouleurs, G., 1961. In ‘Problems of Extragalactic Research’, Proc. IAU Symp. No. 15, MacMillan, New York, p. 3.Google Scholar
de Vaucouleurs, G., de Vaucouleurs, A., Corwin, H.G. Jr., Buta, R.J., Paturel, G. and Fouqué, P., 1991. Third Reference Catalogue of Bright Objects. Springer-Verlag, New York (RC3).Google Scholar
Djorgovski, S. and Davis, M., 1987. Astrophys. J., 313, 59.Google Scholar
Djorgovski, S., de Carvalho, R. and Han, M.-S., 1989. In ‘The Extragalactic Distance Scale’, ASP Conf. Ser. Vol 4, eds. van den Bergh, S. and Pritchet, C.J., ASP, San Francisco, p. 329.Google Scholar
D'Onofrio, M., 1991. PhD Thesis, SISSA.Google Scholar
Dressler, A., Lynden-Bell, D., Burstein, D., Davies, R.L., Faber, S.M., Terlevich, R.J. and Wegner, G., 1987. Astrophys. J., 313, 42.Google Scholar
Governato, F., Reduzzi, L. and Rampazzo, R., 1993. Mon. Not. R. astron. Soc., 261, 379.Google Scholar
Kormendy, J., 1977. Astrophys. J., 218, 333.Google Scholar
Rix, H.-W. and White, S., 1990. Astrophys. J., 362, 52.Google Scholar
Stiavelli, M., Londrillo, P. and Messina, A., 1991. Mon. Not. R. astron. Soc., 251, 57p.Google Scholar