Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 425, Issue 4, Pages 2840-2853Publisher
OXFORD UNIV PRESS
DOI: 10.1111/j.1365-2966.2012.21639.x
Keywords
blue stragglers; stars: carbon; stars: horizontal branch; Galaxy: halo; Galaxy: fundamental parameters; Galaxy: kinematics and dynamics
Categories
Funding
- Science and Technology Facilities Council (STFC)
- Royal Society
- STFC
- Peterhouse College, Cambridge
- Ramon y Cajal Program
- Spanish grant [AYA2010-17631]
- Ministerio of Economia y Competitividad
- Marie Curie Initial Training Network CosmoComp [PITN-GA-2009-238356]
- FONDECYT [1095092]
- BASAL
- NASA [HST-HF-51283.01-A, NAS5-26555]
- Space Telescope Science Institute
- NSF [AST0807498]
- STFC [ST/F00723X/1, ST/J000647/1, ST/J001538/1] Funding Source: UKRI
- Science and Technology Facilities Council [ST/F00723X/1, ST/J001538/1, ST/H00243X/1, ST/J000647/1] Funding Source: researchfish
- Direct For Mathematical & Physical Scien
- Division Of Astronomical Sciences [807498] Funding Source: National Science Foundation
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We build a sample of distant (D > 80 kpc) stellar halo stars with measured radial velocities. Faint (20 < g < 22) candidate blue horizontal branch (BHB) stars were selected using the deep, but wide, multi-epoch Sloan Digital Sky Survey photometry. Follow-up spectroscopy for these A-type stars was performed using the Very Large Telescope (VLT) FOcal Reducer and low dispersion Spectrograph 2 (FORS2) instrument. We classify stars according to their Balmer line profiles, and find that seven are bona fide BHB stars and 31 are blue stragglers (BS). Owing to the magnitude range of our sample, even the intrinsically fainter BS stars can reach out to D similar to 90 kpc. We complement this sample of A-type stars with intrinsically brighter, intermediate-age, asymptotic giant branch stars. A set of four distant cool carbon stars is compiled from the literature and we perform spectroscopic follow-up on a further four N-type carbon stars using the William Herschel Telescope (WHT) Intermediate dispersion Spectrograph and Imaging System (ISIS) instrument. Altogether, this provides us with the largest sample to date of individual star tracers out to r similar to 150 kpc. We find that the radial velocity dispersion of these tracers falls rapidly at large distances and is surprisingly cold (sigma(r) approximate to 50-60 km s(-1)) between 100 and 150 kpc. Relating the measured radial velocities to the mass of the Milky Way requires knowledge of the (unknown) tracer density profile and anisotropy at these distances. Nonetheless, by assuming the stellar halo stars between 50 and 150 kpc have a moderate density fall-off (with power-law slope alpha < 5) and are on radial orbits (sigma(2)(t)/sigma(2)(r) < 1), we infer that the mass within 150 kpc is less than 10(12) M-circle dot and suggest it probably lies in the range (5-10) x 10(11) M-circle times. We discuss the implications of such a low mass for the Milky Way.
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