Your search keyword '"Grillmair, C. J."' showing total 3 results

1. total mass of the Large Magellanic Cloud from its perturbation on the Orphan stream.

Author

Erkal, D, Belokurov, V, Laporte, C F P, Koposov, S E, Li, T S, Grillmair, C J, Kallivayalil, N, Price-Whelan, A M, Evans, N W, Hawkins, K, Hendel, D, Mateu, C, Navarro, J F, del Pino, A, Slater, C T, Sohn, S T, and Collaboration), (The OATs: Orphan Aspen Treasury

Subjects

LARGE magellanic cloud, MAGELLANIC clouds, MILKY Way, RIVERS

Abstract

In a companion paper by Koposov et al. RR Lyrae from Gaia Data Release 2 are used to demonstrate that stars in the Orphan stream have velocity vectors significantly misaligned with the stream track, suggesting that it has received a large gravitational perturbation from a satellite of the Milky Way. We argue that such a mismatch cannot arise due to any realistic static Milky Way potential and then explore the perturbative effects of the Large Magellanic Cloud (LMC). We find that the LMC can produce precisely, the observed motion-track mismatch and we therefore use the Orphan stream to measure the mass of the Cloud. We simultaneously fit the Milky Way and LMC potentials and infer that a total LMC mass of |$1.38^{+0.27}_{-0.24} \times 10^{11}\, \rm {M_\odot }$| is required to bend the Orphan stream, showing for the first time that the LMC has a large and measurable effect on structures orbiting the Milky Way. This has far-reaching consequences for any technique which assumes that tracers are orbiting a static Milky Way. Furthermore, we measure the Milky Way mass within 50 kpc to be |$3.80^{+0.14}_{-0.11}\times 10^{11} \, \mathrm{M}_\odot$|⁠. Finally, we use these results to predict that, due to the reflex motion of the Milky Way in response to the LMC, the outskirts of the Milky Way's stellar halo should exhibit a bulk, upwards motion. [ABSTRACT FROM AUTHOR]

Published

2019

2. Piercing the Milky Way: an all-sky view of the Orphan Stream.

Author

Koposov, S E, Belokurov, V, Li, T S, Mateu, C, Erkal, D, Grillmair, C J, Hendel, D, Price-Whelan, A M, Laporte, C F P, Hawkins, K, Sohn, S T, del Pino, A, Evans, N W, Slater, C T, Kallivayalil, N, and Navarro, J F

Subjects

MILKY Way, ASTROMETRY, RR Lyrae stars, GRAVITATIONAL potential, RIVERS, RED giants

Abstract

We use astrometry, broad-band photometry, and variability information from the Data Release 2 of ESA's Gaia mission (GDR2) to identify members of the Orphan Stream (OS) across the whole sky. The stream is traced above and below the celestial equator and in both Galactic hemispheres, thus increasing its visible length to ∼210° equivalent to ∼150 kpc in physical extent. Taking advantage of the large number of RR Lyrae stars in the OS, we extract accurate distances and proper motions across the entire stretch of the tidal debris studied. As delineated by the GDR2 RR Lyrae, the stream exhibits two prominent twists in its shape on the sky which are accompanied by changes in the tangential motion. We complement the RR Lyrae maps with those created using GDR2 Red Giants and the DECam Legacy Survey Main Sequence Turn-Off stars. The behaviour of the OS track on the sky is consistent across all three tracers employed. We detect a strong non-zero motion in the across-stream direction for a substantial portion of the stream. Such a misalignment between the debris track and the streaming velocity cannot be reproduced in a static gravitational potential and signals an interaction with a massive perturber. [ABSTRACT FROM AUTHOR]

Published

2019

3. GAPS IN THE GD-1 STAR STREAM.

Author

CARLBERG, R. G. and GRILLMAIR, C. J.

Subjects

*DENSITY of stars, *MILKY Way, *DARK matter, *SIGNAL-to-noise ratio, *NEUTRAL density filters

Abstract

GD-1 is a long, thin, MilkyWay star stream that has readily visible density variations along its length.We quantify the locations, sizes, and statistical significance of the density structure, i.e., gaps, using a set of scaled filters. The shapes of the filters are based on the gaps that develop in simulations of dark matter sub-halos crossing a star stream. The high Galactic latitude 8.4 kpc long segment of GD-1 that we examine has 8 + 3 gaps of 99% significance or greater, with the error estimated on the basis of tests of the gap-filtering technique. The cumulative distribution of gaps more than three times the width of the stream is in good agreement with predictions for dark matter sub-halo encounters with cold star streams. The number of gaps narrower than three times the width of the GD-1 stream falls well below the cold stream prediction which is taken into account for the gap creation rate integrated over all sizes. Simple warm stream simulations scaled to GD-1 show that the falloff in gaps is expected for sub-halos below a mass of 106M☉. The GD-1 gaps requires 100 sub-halos >106M☉ within 30 kpc, the apocenter of GD-1 orbit. These results are consistent with LCDM sub-halo predictions but further improvements in stream signal-to-noise and gap modeling will be welcome. [ABSTRACT FROM AUTHOR]

Published

2013