The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1

Colin T. Slater; Eric F. Bell; Edward F. Schlafly; Eric Morganson; Nicolas F. Martin; Hans Walter Rix; Jorge Peñarrubia; Edouard J. Bernard; Annette M.N. Ferguson; David Martinez-Delgado; Rosemary F.G. Wyse; William S. Burgett; Kenneth C. Chambers; Peter W. Draper; Klaus W. Hodapp; Nicholas Kaiser; Eugene A. Magnier; Nigel Metcalfe; Paul A. Price; John L. Tonry; Richard J. Wainscoat; Christopher Waters

doi:10.1088/0004-637X/791/1/9

The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1

Colin T. Slater, Eric F. Bell, Edward F. Schlafly, Eric Morganson, Nicolas F. Martin, Hans Walter Rix, Jorge Peñarrubia, Edouard J. Bernard, Annette M.N. Ferguson, David Martinez-Delgado, Rosemary F.G. Wyse, William S. Burgett, Kenneth C. Chambers, Peter W. Draper, Klaus W. Hodapp, Nicholas Kaiser, Eugene A. Magnier, Nigel Metcalfe, Paul A. Price, John L. TonryRichard J. Wainscoat, Christopher Waters

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

Abstract

We present a panoptic view of the stellar structure in the Galactic disk's outer reaches commonly known as the Monoceros Ring, based on data from Pan-STARRS1. These observations clearly show the large extent of the stellar overdensities on both sides of the Galactic disk, extending between b = -25° and b = +35° and covering over 130° in Galactic longitude. The structure exhibits a complex morphology with both stream-like features and a sharp edge to the structure in both the north and the south. We compare this map to mock observations of two published simulations aimed at explaining such structures in the outer stellar disk, one postulating an origin as a tidal stream and the other demonstrating a scenario where the disk is strongly distorted by the accretion of a satellite. These morphological comparisons of simulations can link formation scenarios to observed structures, such as demonstrating that the distorted-disk model can produce thin density features resembling tidal streams. Although neither model produces perfect agreement with the observations - the tidal stream predicts material at larger distances that is not detected while in the distorted disk model, the midplane is warped to an excessive degree - future tuning of the models to accommodate these latest data may yield better agreement.

Original language	English (US)
Article number	9
Journal	Astrophysical Journal
Volume	791
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/791/1/9
State	Published - Aug 10 2014
Externally published	Yes

Keywords

disk - Galaxy
evolution - galaxies
galaxies
interactions - Galaxy
structure

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Online availability

10.1088/0004-637X/791/1/9

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Slater, C. T., Bell, E. F., Schlafly, E. F., Morganson, E., Martin, N. F., Rix, H. W., Peñarrubia, J., Bernard, E. J., Ferguson, A. M. N., Martinez-Delgado, D., Wyse, R. F. G., Burgett, W. S., Chambers, K. C., Draper, P. W., Hodapp, K. W., Kaiser, N., Magnier, E. A., Metcalfe, N., Price, P. A., ... Waters, C. (2014). The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1. Astrophysical Journal, 791(1), Article 9. https://doi.org/10.1088/0004-637X/791/1/9

Slater, CT, Bell, EF, Schlafly, EF, Morganson, E, Martin, NF, Rix, HW, Peñarrubia, J, Bernard, EJ, Ferguson, AMN, Martinez-Delgado, D, Wyse, RFG, Burgett, WS, Chambers, KC, Draper, PW, Hodapp, KW, Kaiser, N, Magnier, EA, Metcalfe, N, Price, PA, Tonry, JL, Wainscoat, RJ & Waters, C 2014, 'The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1', Astrophysical Journal, vol. 791, no. 1, 9. https://doi.org/10.1088/0004-637X/791/1/9

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title = "The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1",

abstract = "We present a panoptic view of the stellar structure in the Galactic disk's outer reaches commonly known as the Monoceros Ring, based on data from Pan-STARRS1. These observations clearly show the large extent of the stellar overdensities on both sides of the Galactic disk, extending between b = -25° and b = +35° and covering over 130° in Galactic longitude. The structure exhibits a complex morphology with both stream-like features and a sharp edge to the structure in both the north and the south. We compare this map to mock observations of two published simulations aimed at explaining such structures in the outer stellar disk, one postulating an origin as a tidal stream and the other demonstrating a scenario where the disk is strongly distorted by the accretion of a satellite. These morphological comparisons of simulations can link formation scenarios to observed structures, such as demonstrating that the distorted-disk model can produce thin density features resembling tidal streams. Although neither model produces perfect agreement with the observations - the tidal stream predicts material at larger distances that is not detected while in the distorted disk model, the midplane is warped to an excessive degree - future tuning of the models to accommodate these latest data may yield better agreement.",

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AU - Slater, Colin T.

AU - Bell, Eric F.

AU - Schlafly, Edward F.

AU - Morganson, Eric

AU - Martin, Nicolas F.

AU - Rix, Hans Walter

AU - Peñarrubia, Jorge

AU - Bernard, Edouard J.

AU - Ferguson, Annette M.N.

AU - Martinez-Delgado, David

AU - Wyse, Rosemary F.G.

AU - Burgett, William S.

AU - Chambers, Kenneth C.

AU - Draper, Peter W.

AU - Hodapp, Klaus W.

AU - Kaiser, Nicholas

AU - Magnier, Eugene A.

AU - Metcalfe, Nigel

AU - Price, Paul A.

AU - Tonry, John L.

AU - Wainscoat, Richard J.

AU - Waters, Christopher

PY - 2014/8/10

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N2 - We present a panoptic view of the stellar structure in the Galactic disk's outer reaches commonly known as the Monoceros Ring, based on data from Pan-STARRS1. These observations clearly show the large extent of the stellar overdensities on both sides of the Galactic disk, extending between b = -25° and b = +35° and covering over 130° in Galactic longitude. The structure exhibits a complex morphology with both stream-like features and a sharp edge to the structure in both the north and the south. We compare this map to mock observations of two published simulations aimed at explaining such structures in the outer stellar disk, one postulating an origin as a tidal stream and the other demonstrating a scenario where the disk is strongly distorted by the accretion of a satellite. These morphological comparisons of simulations can link formation scenarios to observed structures, such as demonstrating that the distorted-disk model can produce thin density features resembling tidal streams. Although neither model produces perfect agreement with the observations - the tidal stream predicts material at larger distances that is not detected while in the distorted disk model, the midplane is warped to an excessive degree - future tuning of the models to accommodate these latest data may yield better agreement.

AB - We present a panoptic view of the stellar structure in the Galactic disk's outer reaches commonly known as the Monoceros Ring, based on data from Pan-STARRS1. These observations clearly show the large extent of the stellar overdensities on both sides of the Galactic disk, extending between b = -25° and b = +35° and covering over 130° in Galactic longitude. The structure exhibits a complex morphology with both stream-like features and a sharp edge to the structure in both the north and the south. We compare this map to mock observations of two published simulations aimed at explaining such structures in the outer stellar disk, one postulating an origin as a tidal stream and the other demonstrating a scenario where the disk is strongly distorted by the accretion of a satellite. These morphological comparisons of simulations can link formation scenarios to observed structures, such as demonstrating that the distorted-disk model can produce thin density features resembling tidal streams. Although neither model produces perfect agreement with the observations - the tidal stream predicts material at larger distances that is not detected while in the distorted disk model, the midplane is warped to an excessive degree - future tuning of the models to accommodate these latest data may yield better agreement.

KW - disk - Galaxy

KW - evolution - galaxies

KW - galaxies

KW - interactions - Galaxy

KW - structure

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The complex structure of stars in the outer galactic disk as revealed by pan-STARRS1

Abstract

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