On surface brightness fluctuations: probabilistic and statistical bases

Free access article

Issue		A&A Volume 491, Number 3, December I 2008


Page(s)		693 - 701
Section		Extragalactic astronomy
DOI		http://dx.doi.org/10.1051/0004-6361:20077515
Published online		07 October 2008

A&A 491, 693-701 (2008)
DOI: 10.1051/0004-6361:20077515

I. Stellar population and theoretical surface brightness fluctuations

M. Cerviño¹, V. Luridiana¹, and L. Jamet^{1, 2}

¹ Instituto de Astrofísica de Andalucía (CSIC), Camino bajo de Huétor 50, Apdo. 3004, Granada 18080, Spain
e-mail: [mcs;vale]@iaa.es
² Instituto de Astronomía (UNAM), Apartado 70-264, México D.F., Mexico
e-mail: ljamet@astroscu.unam.mx

Received 20 March 2007 / Accepted 1 September 2008

Abstract
Aims. This work aims to provide a theoretical formulation of surface brightness fluctuations (SBF) in the framework of probabilistic population synthesis models that have no deterministic relations between the different stellar components of a population but only relations on average, and to distinguish between the different distributions involved in the definition of SBF.
Methods. By applying the probabilistic theory of stellar population synthesis models, we estimate the shape (mean, variance, skewness, and kurtosis) of the distribution of fluctuations across resolution elements, and examine the implications for SBF determination, definition and application.
Results. We distinguish between three definitions of SBF: (i) stellar population SBF, which can be computed from synthesis models and provide an intrinsic metric for fit for stellar population studies; (ii) theoretical SBF, which include the stellar population SBF plus a term accounts for the distribution of the number of stars per resolution element $\psi(N)$ ; theoretical SBF that coincides with the Tonry & Schneider (1998) definition in the special case when $\psi(N)$ has a Poisson distribution. We find that the Poisson contribution to theoretical SBF is around 0.1 stellar population SBF and is negligible; (iii) observational SBF. We present alternative ways to compute the SBF and extend the application of stellar population SBF to defining a metric for fitting for standard stellar population studies.
Conclusions. We demonstrate that SBF are observational evidence of a probabilistic paradigm in population synthesis, where integrated luminosities have an intrinsic distributed nature, and they rule out the commonly assumed deterministic paradigm of stellar population modeling.

Key words: galaxies: star clusters -- galaxies: stellar content -- methods: data analysis

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