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The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis

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The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis. / Brown, Thomas M.; Beaton, Rachael; Chiba, Masashi et al.
In: Astrophysical Journal Letters, Vol. 685, No. 2, 01.10.2008, p. L121-L124.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Brown, TM, Beaton, R, Chiba, M, Ferguson, HC, Gilbert, KM, Guhathakurta, P, Iye, M, Kalirai, JS, Koch, A, Komiyama, Y, Majewski, SR, Reitzel, DB, Renzini, A, Rich, RM, Smith, E, Sweigart, AV & Tanaka, M 2008, 'The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis', Astrophysical Journal Letters, vol. 685, no. 2, pp. L121-L124. https://doi.org/10.1086/592686

APA

Brown, T. M., Beaton, R., Chiba, M., Ferguson, H. C., Gilbert, K. M., Guhathakurta, P., Iye, M., Kalirai, J. S., Koch, A., Komiyama, Y., Majewski, S. R., Reitzel, D. B., Renzini, A., Rich, R. M., Smith, E., Sweigart, A. V., & Tanaka, M. (2008). The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis. Astrophysical Journal Letters, 685(2), L121-L124. https://doi.org/10.1086/592686

Vancouver

Brown TM, Beaton R, Chiba M, Ferguson HC, Gilbert KM, Guhathakurta P et al. The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis. Astrophysical Journal Letters. 2008 Oct 1;685(2):L121-L124. doi: 10.1086/592686

Author

Brown, Thomas M. ; Beaton, Rachael ; Chiba, Masashi et al. / The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis. In: Astrophysical Journal Letters. 2008 ; Vol. 685, No. 2. pp. L121-L124.

Bibtex

@article{e6c1580b50924d2f84fa6b34139e9197,
title = "The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis",
abstract = "Using the HST ACS, we have obtained deep optical images reaching well below the oldest main-sequence turnoff in fields on the southeast minor axis of the Andromeda galaxy, 35 kpc from the nucleus. These data probe the star formation history in the extended halo of Andromeda—that region beyond 30 kpc that appears both chemically and morphologically distinct from the metal-rich, highly disturbed inner spheroid. The present data, together with our previous data for fields at 11 and 21 kpc, do not show a simple trend toward older ages and lower metallicities, as one might expect for populations further removed from the obvious disturbances of the inner spheroid. Specifically, at 11, 21, and 35 kpc, the mean ages are 9.7, 11.0, and 10.5 Gyr, respectively, and the mean [Fe/H] values are –0.65, –0.87, and –0.98, respectively. In the best-fit model of the 35 kpc population, one-third of the stars are younger than 10 Gyr, whereas only ~10% of the stars are truly ancient and metal-poor. The extended halo thus exhibits clear evidence of its hierarchical assembly, and the contribution from any classical halo formed via early monolithic collapse must be small.",
author = "Brown, {Thomas M.} and Rachael Beaton and Masashi Chiba and Ferguson, {Henry C.} and Gilbert, {Karoline M.} and Puragra Guhathakurta and Masanori Iye and Kalirai, {Jasonjot S.} and Andreas Koch and Yutaka Komiyama and Majewski, {Steven R.} and Reitzel, {David B.} and A. Renzini and Rich, {R. Michael} and Ed Smith and Sweigart, {Allen V.} and Mikito Tanaka",
year = "2008",
month = oct,
day = "1",
doi = "10.1086/592686",
language = "English",
volume = "685",
pages = "L121--L124",
journal = "Astrophysical Journal Letters",
issn = "2041-8205",
publisher = "IOP Publishing Ltd",
number = "2",

}

RIS

TY - JOUR

T1 - The extended star formation history of the Andromeda spheroid at 35 kpc on the minor axis

AU - Brown, Thomas M.

AU - Beaton, Rachael

AU - Chiba, Masashi

AU - Ferguson, Henry C.

AU - Gilbert, Karoline M.

AU - Guhathakurta, Puragra

AU - Iye, Masanori

AU - Kalirai, Jasonjot S.

AU - Koch, Andreas

AU - Komiyama, Yutaka

AU - Majewski, Steven R.

AU - Reitzel, David B.

AU - Renzini, A.

AU - Rich, R. Michael

AU - Smith, Ed

AU - Sweigart, Allen V.

AU - Tanaka, Mikito

PY - 2008/10/1

Y1 - 2008/10/1

N2 - Using the HST ACS, we have obtained deep optical images reaching well below the oldest main-sequence turnoff in fields on the southeast minor axis of the Andromeda galaxy, 35 kpc from the nucleus. These data probe the star formation history in the extended halo of Andromeda—that region beyond 30 kpc that appears both chemically and morphologically distinct from the metal-rich, highly disturbed inner spheroid. The present data, together with our previous data for fields at 11 and 21 kpc, do not show a simple trend toward older ages and lower metallicities, as one might expect for populations further removed from the obvious disturbances of the inner spheroid. Specifically, at 11, 21, and 35 kpc, the mean ages are 9.7, 11.0, and 10.5 Gyr, respectively, and the mean [Fe/H] values are –0.65, –0.87, and –0.98, respectively. In the best-fit model of the 35 kpc population, one-third of the stars are younger than 10 Gyr, whereas only ~10% of the stars are truly ancient and metal-poor. The extended halo thus exhibits clear evidence of its hierarchical assembly, and the contribution from any classical halo formed via early monolithic collapse must be small.

AB - Using the HST ACS, we have obtained deep optical images reaching well below the oldest main-sequence turnoff in fields on the southeast minor axis of the Andromeda galaxy, 35 kpc from the nucleus. These data probe the star formation history in the extended halo of Andromeda—that region beyond 30 kpc that appears both chemically and morphologically distinct from the metal-rich, highly disturbed inner spheroid. The present data, together with our previous data for fields at 11 and 21 kpc, do not show a simple trend toward older ages and lower metallicities, as one might expect for populations further removed from the obvious disturbances of the inner spheroid. Specifically, at 11, 21, and 35 kpc, the mean ages are 9.7, 11.0, and 10.5 Gyr, respectively, and the mean [Fe/H] values are –0.65, –0.87, and –0.98, respectively. In the best-fit model of the 35 kpc population, one-third of the stars are younger than 10 Gyr, whereas only ~10% of the stars are truly ancient and metal-poor. The extended halo thus exhibits clear evidence of its hierarchical assembly, and the contribution from any classical halo formed via early monolithic collapse must be small.

U2 - 10.1086/592686

DO - 10.1086/592686

M3 - Journal article

VL - 685

SP - L121-L124

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

SN - 2041-8205

IS - 2

ER -