A comprehensive view of the Virgo stellar stream
Author
Abstract
To explore the complex halo substructure that has been reported in the direction of the Virgo constellation, radial velocities and
metallicities have been measured for 82 RR Lyrae stars (RRLS) that were identified by the QUEST survey. These stars are distributed
over 90 square degrees of the sky, and lie from 4 to 23 kpc from the Sun. Using an algorithm for finding groups in phase space and
modeling the smooth halo component in the region, we identified the 5 most significant RRLS groups, some of which were previously
known or suspected. We have examined the SEKBO and the Catalina catalog of RRLS (with available spectroscopic measurements),
as well as the bright QUEST RRLS sample, the catalog of Red Giant stars from the Spaghetti survey, and three recent catalogs of blue
horizontal branch (BHB) stars, for stars that may be related to the QUEST RRLS groups. The most significant group of RRLS is the
Virgo stellar stream (VSS) identified here as group A, which is composed of at least 10 RRLS and 3 BHB stars. It has a mean distance
of 19.6 kpc and a mean radial velocity Vgsr = 128 km s−1
, as estimated from its RRLS members. With the revised velocities reported
here, there is no longer an offset in velocity between the RRLS in the VSS and the prominent peak in the velocities of main-sequence
turnoff stars reported by other researchers in the same direction and at a similar distance (known as S297+63-20.5). The location in
phase space of two other groups (F and H) suggests a possible connection with the VSS, which cannot be discarded at this point,
although the turnoff colors of the VSS and group H, as identified from other works, suggest they might be composed of different
populations. Two more groups, B and D, are found at mean distances of 19.0 and 5.7 kpc, and mean radial velocities of Vgsr = −94
and 32 km s−1
. The latter is the more numerous in terms of total members, as well as the more extended in RA. A comparison with
the latest model of the disruption of the Sagittarius dwarf, indicates that none of the above groups is related to it. Rather than being
the result of a single accretion event, the excess of stars observed in Virgo appears to be composed of several halo substructures along
the same line of sight.
General note
Artículo de publicación ISI.
Identifier
URI: https://repositorio.uchile.cl/handle/2250/126492
DOI: DOI: 10.1051/0004-6361/201219654
Quote Item
A&A 566, A118 (2014)
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