Quadruple-peaked spectral line profiles as a tool to constrain gravitational potential of shell galaxies

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Authors

EBROVÁ Ivana JÍLKOVÁ Lucie JUNGWIERT Bruno KŘÍŽEK Miroslav BÍLEK Michal BARTOŠKOVÁ Kateřina SKALICKÁ Tereza STOKLASOVÁ Ivana

Year of publication 2012
Type Article in Periodical
Magazine / Source Astronomy and Astrophysics
MU Faculty or unit

Faculty of Science

Citation
Web ADS
Doi http://dx.doi.org/10.1051/0004-6361/201219940
Field Astronomy and astrophysics
Keywords galaxies: kinematics and dynamics; methods: analytical; methods: numerical; galaxies: elliptical and lenticular; cD; galaxies: halos; galaxies: interactions
Description Stellar shells observed in many giant elliptical and lenticular as well as a few spiral and dwarf galaxies presumably result from galaxy mergers. Line-of-sight velocity distributions of the shells could, in principle, if measured with a sufficiently high signal-to-noise ratio, constitute a method to constrain the gravitational potential of the host galaxy. Merrifield & Kuijken (1998, MNRAS, 297, 1292) predicted a double-peaked line profile for stationary shells resulting from a nearly radial minor merger. In this paper, we aim at extending their analysis to a more realistic case of expanding shells, inherent to the merging process, whereas we assume the same type of merger and the same orbital geometry. We used an analytical approach as well as test particle simulations to predict the line-of-sight velocity profile across the shell structure. Simulated line profiles were convolved with spectral PSFs to estimate peak detectability. The resulting line-of-sight velocity distributions are more complex than previously predicted due to nonzero phase velocity of the shells. In principle, each of the Merrifield & Kuijken (1998) peaks splits into two, giving a quadruple-peaked line profile, which allows more precise determination of the potential of the host galaxy and contains additional information. We find simple analytical expressions that connect the positions of the four peaks of the line profile and the mass distribution of the galaxy, namely, the circular velocity at the given shell radius and the propagation velocity of the shell. The analytical expressions were applied to a test-particle simulation of a radial minor merger, and the potential of the simulated host galaxy was successfully recovered. Shell kinematics can thus become an independent tool to determine the content and distribution of the dark matter in shell galaxies up to ~100 kpc from the center of the host galaxy.
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