The kinematic footprints of five stellar streams in Andromeda's halo

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https://doi.org/10.1111/j.1365-2966.2008.13703.x
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The kinematic footprints of five stellar streams in Andromeda's halo. / Chapman, S. C.; Ibata, Rodrigo A.; Irwin, M. et al.
In: Monthly Notices of the Royal Astronomical Society, Vol. 390, No. 4, 11.11.2008, p. 1437-1452.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Chapman, SC, Ibata, RA, Irwin, M, Koch, A, Letarte, B, Martin, N, Collins, M, Lewis, GF, McConnachie, A, Peñarrubia , J, Rich, RM, Trethewey, D, Ferguson, A, Huxor, A & Tanvir, N 2008, 'The kinematic footprints of five stellar streams in Andromeda's halo', Monthly Notices of the Royal Astronomical Society, vol. 390, no. 4, pp. 1437-1452. https://doi.org/10.1111/j.1365-2966.2008.13703.x

APA

Chapman, S. C., Ibata, R. A., Irwin, M., Koch, A., Letarte, B., Martin, N., Collins, M., Lewis, G. F., McConnachie, A., Peñarrubia , J., Rich, R. M., Trethewey, D., Ferguson, A., Huxor, A., & Tanvir, N. (2008). The kinematic footprints of five stellar streams in Andromeda's halo. Monthly Notices of the Royal Astronomical Society, 390(4), 1437-1452. https://doi.org/10.1111/j.1365-2966.2008.13703.x

Vancouver

Chapman SC, Ibata RA, Irwin M, Koch A, Letarte B, Martin N et al. The kinematic footprints of five stellar streams in Andromeda's halo. Monthly Notices of the Royal Astronomical Society. 2008 Nov 11;390(4):1437-1452. doi: 10.1111/j.1365-2966.2008.13703.x

Author

Chapman, S. C. ; Ibata, Rodrigo A. ; Irwin, M. et al. / The kinematic footprints of five stellar streams in Andromeda's halo. In: Monthly Notices of the Royal Astronomical Society. 2008 ; Vol. 390, No. 4. pp. 1437-1452.

Bibtex

@article{7682979b25ec40af999f7063b2cd9e37,

title = "The kinematic footprints of five stellar streams in Andromeda's halo",

abstract = "We present a spectroscopic analysis of five stellar streams ({\textquoteleft}A{\textquoteright}, {\textquoteleft}B{\textquoteright}, {\textquoteleft}Cr{\textquoteright}, {\textquoteleft}Cp{\textquoteright} and {\textquoteleft}D{\textquoteright}) as well as the extended star cluster, EC4, which lies within Stream {\textquoteleft}C{\textquoteright}, all discovered in the halo of M31 from our Canada–France–Hawaii Telescope/MegaCam survey. These spectroscopic results were initially serendipitous, making use of our existing observations from the DEep Imaging Multi-Object Spectrograph mounted on the Keck II telescope, and thereby emphasizing the ubiquity of tidal streams that account for ∼70 per cent of the M31 halo stars in the targeted fields. Subsequent spectroscopy was then procured in Stream {\textquoteleft}C{\textquoteright} and Stream {\textquoteleft}D{\textquoteright} to trace the velocity gradient along the streams. Nine metal-rich ([Fe/H]∼−0.7) stars at vhel=−349.5 km s−1, σv,corr∼ 5.1 ± 2.5 km s−1 are proposed as a serendipitous detection of Stream {\textquoteleft}Cr{\textquoteright}, with follow-up kinematic identification at a further point along the stream. Seven metal-poor ([Fe/H]∼−1.3) stars confined to a narrow, 15 km s−1 velocity bin centred at vhel=−285.6, σv,corr= 4.3+1.7−1.4 km s−1 represent a kinematic detection of Stream {\textquoteleft}Cp{\textquoteright}, again with follow-up kinematic identification further along the stream. For the cluster EC4, candidate member stars with average [Fe/H]∼−1.4, are found at vhel=−282 suggesting it could be related to Stream {\textquoteleft}Cp{\textquoteright}. No similarly obvious cold kinematic candidate is found for Stream {\textquoteleft}D{\textquoteright}, although candidates are proposed in both of two spectroscopic pointings along the stream (both at ∼−400 km s−1). Spectroscopy near the edge of Stream {\textquoteleft}B{\textquoteright} suggests a likely kinematic detection at vhel∼−330, σv,corr∼ 6.9 km s−1, while a candidate kinematic detection of Stream {\textquoteleft}A{\textquoteright} is found (plausibly associated to M33 rather than M31) with vhel∼−170, σv,corr= 12.5 km s−1. The low dispersion of the streams in kinematics, physical thickness and metallicity makes it hard to reconcile with a scenario whereby these stream structures as an ensemble are related to the giant southern stream. We conclude that the M31 stellar halo is largely made up of multiple kinematically cold streams.",

author = "Chapman, {S. C.} and Ibata, {Rodrigo A.} and M. Irwin and Andreas Koch and B. Letarte and N. Martin and M. Collins and Lewis, {G. F.} and A. McConnachie and J. Pe{\~n}arrubia and Rich, {R. Michael} and D. Trethewey and A. Ferguson and A. Huxor and Nial Tanvir",

year = "2008",

month = nov,

day = "11",

doi = "10.1111/j.1365-2966.2008.13703.x",

language = "English",

volume = "390",

pages = "1437--1452",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "OXFORD UNIV PRESS",

number = "4",

}

RIS

TY - JOUR

T1 - The kinematic footprints of five stellar streams in Andromeda's halo

AU - Chapman, S. C.

AU - Ibata, Rodrigo A.

AU - Irwin, M.

AU - Koch, Andreas

AU - Letarte, B.

AU - Martin, N.

AU - Collins, M.

AU - Lewis, G. F.

AU - McConnachie, A.

AU - Peñarrubia , J.

AU - Rich, R. Michael

AU - Trethewey, D.

AU - Ferguson, A.

AU - Huxor, A.

AU - Tanvir, Nial

PY - 2008/11/11

Y1 - 2008/11/11

N2 - We present a spectroscopic analysis of five stellar streams (‘A’, ‘B’, ‘Cr’, ‘Cp’ and ‘D’) as well as the extended star cluster, EC4, which lies within Stream ‘C’, all discovered in the halo of M31 from our Canada–France–Hawaii Telescope/MegaCam survey. These spectroscopic results were initially serendipitous, making use of our existing observations from the DEep Imaging Multi-Object Spectrograph mounted on the Keck II telescope, and thereby emphasizing the ubiquity of tidal streams that account for ∼70 per cent of the M31 halo stars in the targeted fields. Subsequent spectroscopy was then procured in Stream ‘C’ and Stream ‘D’ to trace the velocity gradient along the streams. Nine metal-rich ([Fe/H]∼−0.7) stars at vhel=−349.5 km s−1, σv,corr∼ 5.1 ± 2.5 km s−1 are proposed as a serendipitous detection of Stream ‘Cr’, with follow-up kinematic identification at a further point along the stream. Seven metal-poor ([Fe/H]∼−1.3) stars confined to a narrow, 15 km s−1 velocity bin centred at vhel=−285.6, σv,corr= 4.3+1.7−1.4 km s−1 represent a kinematic detection of Stream ‘Cp’, again with follow-up kinematic identification further along the stream. For the cluster EC4, candidate member stars with average [Fe/H]∼−1.4, are found at vhel=−282 suggesting it could be related to Stream ‘Cp’. No similarly obvious cold kinematic candidate is found for Stream ‘D’, although candidates are proposed in both of two spectroscopic pointings along the stream (both at ∼−400 km s−1). Spectroscopy near the edge of Stream ‘B’ suggests a likely kinematic detection at vhel∼−330, σv,corr∼ 6.9 km s−1, while a candidate kinematic detection of Stream ‘A’ is found (plausibly associated to M33 rather than M31) with vhel∼−170, σv,corr= 12.5 km s−1. The low dispersion of the streams in kinematics, physical thickness and metallicity makes it hard to reconcile with a scenario whereby these stream structures as an ensemble are related to the giant southern stream. We conclude that the M31 stellar halo is largely made up of multiple kinematically cold streams.

AB - We present a spectroscopic analysis of five stellar streams (‘A’, ‘B’, ‘Cr’, ‘Cp’ and ‘D’) as well as the extended star cluster, EC4, which lies within Stream ‘C’, all discovered in the halo of M31 from our Canada–France–Hawaii Telescope/MegaCam survey. These spectroscopic results were initially serendipitous, making use of our existing observations from the DEep Imaging Multi-Object Spectrograph mounted on the Keck II telescope, and thereby emphasizing the ubiquity of tidal streams that account for ∼70 per cent of the M31 halo stars in the targeted fields. Subsequent spectroscopy was then procured in Stream ‘C’ and Stream ‘D’ to trace the velocity gradient along the streams. Nine metal-rich ([Fe/H]∼−0.7) stars at vhel=−349.5 km s−1, σv,corr∼ 5.1 ± 2.5 km s−1 are proposed as a serendipitous detection of Stream ‘Cr’, with follow-up kinematic identification at a further point along the stream. Seven metal-poor ([Fe/H]∼−1.3) stars confined to a narrow, 15 km s−1 velocity bin centred at vhel=−285.6, σv,corr= 4.3+1.7−1.4 km s−1 represent a kinematic detection of Stream ‘Cp’, again with follow-up kinematic identification further along the stream. For the cluster EC4, candidate member stars with average [Fe/H]∼−1.4, are found at vhel=−282 suggesting it could be related to Stream ‘Cp’. No similarly obvious cold kinematic candidate is found for Stream ‘D’, although candidates are proposed in both of two spectroscopic pointings along the stream (both at ∼−400 km s−1). Spectroscopy near the edge of Stream ‘B’ suggests a likely kinematic detection at vhel∼−330, σv,corr∼ 6.9 km s−1, while a candidate kinematic detection of Stream ‘A’ is found (plausibly associated to M33 rather than M31) with vhel∼−170, σv,corr= 12.5 km s−1. The low dispersion of the streams in kinematics, physical thickness and metallicity makes it hard to reconcile with a scenario whereby these stream structures as an ensemble are related to the giant southern stream. We conclude that the M31 stellar halo is largely made up of multiple kinematically cold streams.

U2 - 10.1111/j.1365-2966.2008.13703.x

DO - 10.1111/j.1365-2966.2008.13703.x

M3 - Journal article

VL - 390

SP - 1437

EP - 1452

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

SN - 0035-8711

IS - 4

ER -

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