Portal de Periódicos da CAPES

The Carina dwarf spheroidal galaxy - How dark is it?

1993; Institute of Physics; Volume: 105; Linguagem: Inglês

10.1086/116449

1538-3881

Mario Mateo, Edward W. Olszewski, C. Pryor, D. L. Welch, Philippe Fischer,

Astronomical Observations and Instrumentation

view Abstract Citations (148) References (76) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS The Carina Dwarf Spheroidal Galaxy: How Dark is it? Mateo, Mario ; Olszewski, Edward W. ; Pryor, Carlton ; Welch, Douglas L. ; Fischer, Philippe Abstract We have obtained precise ( = 3.1 km s^-1^) radial velocities of 23 photometrically-selected normal giant stars located near the center of the Carina dwarf spheroidal (dSph) galaxy. Of this sample, 17 stars are Carina members based on their heliocentric radial velocities in excess of 200 km s^-1^. From this subsample, we derive a mean systemic velocity for Carina of 223.1+/-1.8 km s^-1^, and a central velocity dispersion of 6.8 km s^-1^. Using the luminosity function of the brightest stars in Carina, we have estimated the central surface brightness of the galaxy to be {SIGMA}_0,V_= 25.2+/-0.3. Assuming the mass distribution follows that of the visible material in Carina, we derived the V band mass-to-light ratio to be (M/L) v = 39+/-23, based on published core parameters of the galaxy and using estimates of the integrated mass and luminosity. We have also fit the kinematic and structural data for Carina to a variety of one- and two-component Michie-King models. Those models in which the velocity dispersion of the visible matter is extremely anisotropic are ruled out by the surface brightness profile; acceptable fits correspond to models with global V-band M/L ratios in excess of 35. These fits do not allow us to place any constraints on the distribution of dark matter in Carina except that the central mass density must be ~> 0.02 M_sun_ pc^-3^. We consider and reject the possibility that atmospheric or binary motions among the program stars may have artificially inflated a small intrinsic velocity dispersion to the observed value. The inferred dark matter content of Carina is consistent with the overall trend of increasing M/L ratio with decreasing total luminosity exhibited by the best-studied dSph galaxies. We conclude that an assumed highly radially anisotropic velocity dispersion tensor in low- luminosity dSph galaxies is unlikely to be able to reduce the M/L ratios within the visible volumes of these systems significantly. Similarly, we conclude that tidal forces probably do not play a significant role in generating the large range of M/L ratios inferred for dSph systems. The current data for dSph galaxies are consistent with the conjecture that these systems all have similar dark matter halos with total masses in the range 1-5 X 10^7^ M_sun_. Publication: The Astronomical Journal Pub Date: February 1993 DOI: 10.1086/116449 Bibcode: 1993AJ....105..510M Keywords: Astronomical Photometry; Dwarf Galaxies; Galactic Structure; Giant Stars; Spheroids; Galactic Nuclei; Mass To Light Ratios; Radial Velocity; Astrophysics; GALAXIES: PECULIAR; GALAXIES: KINEMATICS AND DYNAMICS full text sources ADS | data products SIMBAD (35) NED (9)