Mapping the galactic halo. V. Sagittarius dwarf spheroidal tidal debris 60° from the main body

Robbie C. Dohm-Palmer; Amina Helmi; Heather Morrison; Mario Mateo; Edward W. Olszewski; Paul Harding; Kenneth C. Freeman; John Norris; Stephen A. Shectman

doi:10.1086/321734

Mapping the galactic halo. V. Sagittarius dwarf spheroidal tidal debris 60° from the main body

Robbie C. Dohm-Palmer^*, Amina Helmi, Heather Morrison, Mario Mateo, Edward W. Olszewski, Paul Harding, Kenneth C. Freeman, John Norris, Stephen A. Shectman

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

66 Citations (Scopus)

Abstract

As part of the Spaghetti Project Survey, we have detected a concentration of giant stars well above expectations for a smooth halo model. The position (l ∼ 350°, b ∼ 50°) and distance (∼50 kpc) of this concentration match those of the northern overdensity detected by the Sloan Digital Sky Survey. We find additional evidence for structure at ∼80 kpc in the same direction. We present radial velocities for many of these stars, including the first published results from the 6.5 m Magellan telescope. The radial velocities for stars in these structures are in excellent agreement with models of the dynamical evolution of the Sagittarius dwarf tidal debris, whose center is 60° away. The metallicity of stars in these streams is lower than that of the main body of the Sgr dwarf, which may indicate a radial metallicity gradient prior to disruption.

Original language	English
Pages (from-to)	L37-L40
Journal	Astrophysical Journal
Volume	555
Issue number	1 PART 2
DOIs	https://doi.org/10.1086/321734
Publication status	Published - 1 Jul 2001

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title = "Mapping the galactic halo. V. Sagittarius dwarf spheroidal tidal debris 60° from the main body",

abstract = "As part of the Spaghetti Project Survey, we have detected a concentration of giant stars well above expectations for a smooth halo model. The position (l ∼ 350°, b ∼ 50°) and distance (∼50 kpc) of this concentration match those of the northern overdensity detected by the Sloan Digital Sky Survey. We find additional evidence for structure at ∼80 kpc in the same direction. We present radial velocities for many of these stars, including the first published results from the 6.5 m Magellan telescope. The radial velocities for stars in these structures are in excellent agreement with models of the dynamical evolution of the Sagittarius dwarf tidal debris, whose center is 60° away. The metallicity of stars in these streams is lower than that of the main body of the Sgr dwarf, which may indicate a radial metallicity gradient prior to disruption.",

keywords = "Galaxy: Evolution, Galaxy: Formation, Galaxy: Halo, Galaxy: Stellar content",

author = "Dohm-Palmer, {Robbie C.} and Amina Helmi and Heather Morrison and Mario Mateo and Olszewski, {Edward W.} and Paul Harding and Freeman, {Kenneth C.} and John Norris and Shectman, {Stephen A.}",

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TY - JOUR

T1 - Mapping the galactic halo. V. Sagittarius dwarf spheroidal tidal debris 60° from the main body

AU - Dohm-Palmer, Robbie C.

AU - Helmi, Amina

AU - Morrison, Heather

AU - Mateo, Mario

AU - Olszewski, Edward W.

AU - Harding, Paul

AU - Freeman, Kenneth C.

AU - Norris, John

AU - Shectman, Stephen A.

PY - 2001/7/1

Y1 - 2001/7/1

N2 - As part of the Spaghetti Project Survey, we have detected a concentration of giant stars well above expectations for a smooth halo model. The position (l ∼ 350°, b ∼ 50°) and distance (∼50 kpc) of this concentration match those of the northern overdensity detected by the Sloan Digital Sky Survey. We find additional evidence for structure at ∼80 kpc in the same direction. We present radial velocities for many of these stars, including the first published results from the 6.5 m Magellan telescope. The radial velocities for stars in these structures are in excellent agreement with models of the dynamical evolution of the Sagittarius dwarf tidal debris, whose center is 60° away. The metallicity of stars in these streams is lower than that of the main body of the Sgr dwarf, which may indicate a radial metallicity gradient prior to disruption.

AB - As part of the Spaghetti Project Survey, we have detected a concentration of giant stars well above expectations for a smooth halo model. The position (l ∼ 350°, b ∼ 50°) and distance (∼50 kpc) of this concentration match those of the northern overdensity detected by the Sloan Digital Sky Survey. We find additional evidence for structure at ∼80 kpc in the same direction. We present radial velocities for many of these stars, including the first published results from the 6.5 m Magellan telescope. The radial velocities for stars in these structures are in excellent agreement with models of the dynamical evolution of the Sagittarius dwarf tidal debris, whose center is 60° away. The metallicity of stars in these streams is lower than that of the main body of the Sgr dwarf, which may indicate a radial metallicity gradient prior to disruption.

KW - Galaxy: Evolution

KW - Galaxy: Formation

KW - Galaxy: Halo

KW - Galaxy: Stellar content

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U2 - 10.1086/321734

DO - 10.1086/321734

M3 - Article

SN - 0004-637X

VL - 555

SP - L37-L40

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1 PART 2

ER -

Mapping the galactic halo. V. Sagittarius dwarf spheroidal tidal debris 60° from the main body

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