posted on 2019-09-09, 15:41authored byAW McConnachie, R Ibata, N Martin, AMN Ferguson, M Collins, S Gwyn, M Irwin, GF Lewis, AD Mackey, T Davidge, V Arias, A Conn, P Cote, D Crnojevic, A Huxor, J Penarrubia, C Spengler, N Tanvir, D Valls-Gabaud, A Babul, P Barmby, NF Bate, E Bernard, S Chapman, A Dotter, W Harris, B McMonigal, J Navarro, TH Puzia, RM Rich, G Thomas, LM Widrow
The Pan-Andromeda Archaeological Survey is a survey of >400 square degrees centered on the Andromeda (M31) and Triangulum (M33) galaxies that has provided the most extensive panorama of an L sstarf galaxy group to large projected galactocentric radii. Here, we collate and summarize the current status of our knowledge of the substructures in the stellar halo of M31, and discuss connections between these features. We estimate that the 13 most distinctive substructures were produced by at least 5 different accretion events, all in the last 3 or 4 Gyr. We suggest that a few of the substructures farthest from M31 may be shells from a single accretion event. We calculate the luminosities of some prominent substructures for which previous estimates were not available, and we estimate the stellar mass budget of the outer halo of M31. We revisit the problem of quantifying the properties of a highly structured data set; specifically, we use the OPTICS clustering algorithm to quantify the hierarchical structure of M31's stellar halo and identify three new faint structures. M31's halo, in projection, appears to be dominated by two "mega-structures," which can be considered as the two most significant branches of a merger tree produced by breaking M31's stellar halo into increasingly smaller structures based on the stellar spatial clustering. We conclude that OPTICS is a powerful algorithm that could be used in any astronomical application involving the hierarchical clustering of points. The publication of this article coincides with the public release of all PAndAS data products.
Funding
Based on observations obtained with MegaPrime/
MegaCam, a joint project of CFHT and CEA Saclay, at the
Canada–France–Hawaii Telescope (CFHT), which is operated
by the National Research Council (NRC) of Canada, the
Institut National des Science de l’Univers (INSU) of the Centre
National de la Recherche Scientifique (CNRS) of France, and
the University of Hawaii.
This research used the facilities of the Canadian Astronomy
Data Centre operated by the National Research Council of
Canada with the support of the Canadian Space Agency.
This work was supported in part by the Canadian Advanced
Network for Astronomical Research (CANFAR), which has
been made possible by funding from CANARIE under the
Network-Enabled Platforms program.
A.W.M. thanks the organizers and attendees at the Lorentz
Center Workshop on “Large Surveys of the Great Andromeda
Galaxy” in 2017 July, at which many aspects of this paper were
discussed and refined.
B.M. acknowledges the support of an Australian Postgraduate Award. T.H.P. acknowledges support by FONDECYT
Regular Project No. ∼1161817 and the BASAL Center for
Astrophysics and Associated Technologies (PFB-06).
History
Citation
The Astrophysical Journal, 2018, 868:55 (36pp)
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy