Testing the gravitational field in elliptical galaxies - NGC 5077
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Abstract
NGC 5077 is an elliptical galaxy with a disk of ionized gas along its minor axis. Observations of the structure and kinematics of this gas disk allow us to investigate both the intrinsic shape and the mass distribution of the underlying galaxy. The rotation axis of the gas disk is displaced by 230 +/- 50 from the apparent major axis of the galaxy, so the gas cannot lie in the equatorial plane of an axisymmetric potential. If the galaxy is triaxial and the gas disk has settled into a principal plane then there are two possible configurations, both with the gas on elliptical orbits. One is an oblate triaxial system with the gas in a plane perpendicular to the longest axis, the other is a prolate triaxial galaxy with the gas in the plane perpendicular to the shortest axis. Alternatively, the gas may lie in the warped and precessing polar ring around an oblate galaxy in this case the gas must have been acquired recently, probably less than 10^9^ yr ago. The observed rotation curve of the gas rises slowly, reaching a peak at ~ 10" from the nucleus. For circular orbits in a spherical potential, this would imply a decrease of M/L toward the center, since the core radius of the light is 1" or less. For gas on elliptic orbits, however, the precise shape of the observed rotation curve will depend on the viewing angle. If the gas lies in a warped polar ring, material further out may be seen in projection close to the center so that the observed rotation velocity is much less than the true circular speed. For NGC 5077, we construct various triaxial and oblate mass models which have constant M/L and are consistent both with the observed velocity fields of gas and stars and with the central mass-to-light ratio implied by the observed stellar velocity dispersion. Thus the slowly rising rotation curve of the gas in NGC 5077 does not require the presence of dark matter in the inner regions.
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