Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources

Luciana Bianchi; Lino Rodriguez-Merino; Maurice Viton; Michel Laget; Boryana Efremova; James Herald; Alberto Conti; Bernie Shiao; Armando Gil De Paz; Samir Salim; A. Thakar; Peter G. Friedman; Soo Chang Rey; David Thilker; Tom A. Barlow; Tamás Budavári; José Donas; Karl Forster; Timothy M. Heckman; Young Wook Lee; Barry F. Madore; D. Christopher Martin; Bruno Milliard; Patrick Morrissey; Susan G. Neff; R. Michael Rich; David Schiminovich; Mark Seibert; Todd Small; Alex S. Szalay; Ted K. Wyder; Barry Y. Welsh; Sukyoung K. Yi

doi:10.1086/516648

Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources

Luciana Bianchi, Lino Rodriguez-Merino, Maurice Viton, Michel Laget, Boryana Efremova, James Herald, Alberto Conti, Bernie Shiao, Armando Gil De Paz, Samir Salim, A. Thakar, Peter G. Friedman, Soo Chang Rey, David Thilker, Tom A. Barlow, Tamás Budavári, José Donas, Karl Forster, Timothy M. Heckman, Young Wook LeeBarry F. Madore, D. Christopher Martin, Bruno Milliard, Patrick Morrissey, Susan G. Neff, R. Michael Rich, David Schiminovich, Mark Seibert, Todd Small, Alex S. Szalay, Ted K. Wyder, Barry Y. Welsh, Sukyoung K. Yi

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

Abstract

We use the Galaxy Evolution Explorer (GALEX) Medium and All-Sky Imaging Survey (MIS and AIS) data from the first public data release (GR1), matched to the Sloan Digital Sky Survey (SDSS) DR3 catalog, to perform source classification. The GALEXsurveys provide photometry in far- and near-UV bands and the SDSS in five optical bands (u, g, r, i, z). The GR1/DR3 overlapping areas are 363 (86) deg² for the GALEXAIS (MIS), for sources within the 0.5° central area of the GALEX fields. Our sample covers mostly |b| > 30° Galactic latitudes. We present statistical properties of the GALEX-SDSS matched sources catalog, containing >2 × 10⁶ objects detected in at least one UV band. We classify the matched sources by comparing the seven-band photometry to model colors constructed for different classes of astrophysical objects. For sources with photometric errors <0.3 mag, the corresponding typical AB-magnitude limits are m_FUV ∼21.5, m _NUV ∼ 22.5 for AIS, and m_FUV ∼24, m_NUV ∼ 24.5 for MIS. At AIS depth, the number of Galactic and extragalactic objects are comparable, but the latter predominate in the MIS. On the basis of our stellar models, we estimate the GALEXsurveys detect hot white dwarfs throughout the Milky Way halo (down to a radius of 0.04 R_⊙ at MIS depth), providing an unprecedented improvement in the Galactic WD census. Their observed surface density is consistent with Milky Way model predictions. We also select low-redshift QSO candidates, extending the known QSO samples to lower magnitudes, and providing z ≈ 1 candidates for detailed z ≈ 1 follow-up investigations. SDSS optical spectra available for a large subsample confirm the classification for the photometrically selected candidates with 97% purity for single hot stars, ≈45% (AIS) or 31% (MIS) for binaries containing a hot star and a cooler companion, and about 85% for QSOs.

Original language	English (US)
Pages (from-to)	669-672
Number of pages	4
Journal	Astrophysical Journal, Supplement Series
Volume	173
Issue number	2
DOIs	https://doi.org/10.1086/516648
State	Published - Dec 2007

Keywords

Galaxy: stellar content
Quasars: general
Stars: statistics
Surveys
Ultraviolet: stars
White dwarfs

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1086/516648

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Bianchi, L., Rodriguez-Merino, L., Viton, M., Laget, M., Efremova, B., Herald, J., Conti, A., Shiao, B., De Paz, A. G., Salim, S., Thakar, A., Friedman, P. G., Rey, S. C., Thilker, D., Barlow, T. A., Budavári, T., Donas, J., Forster, K., Heckman, T. M., ... Yi, S. K. (2007). Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources. Astrophysical Journal, Supplement Series, 173(2), 669-672. https://doi.org/10.1086/516648

Bianchi, L, Rodriguez-Merino, L, Viton, M, Laget, M, Efremova, B, Herald, J, Conti, A, Shiao, B, De Paz, AG, Salim, S, Thakar, A, Friedman, PG, Rey, SC, Thilker, D, Barlow, TA, Budavári, T, Donas, J, Forster, K, Heckman, TM, Lee, YW, Madore, BF, Martin, DC, Milliard, B, Morrissey, P, Neff, SG, Rich, RM, Schiminovich, D, Seibert, M, Small, T, Szalay, AS, Wyder, TK, Welsh, BY & Yi, SK 2007, 'Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources', Astrophysical Journal, Supplement Series, vol. 173, no. 2, pp. 669-672. https://doi.org/10.1086/516648

@article{a33d496b54a1446cb8ca2b7bf25474ee,

title = "Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources",

abstract = "We use the Galaxy Evolution Explorer (GALEX) Medium and All-Sky Imaging Survey (MIS and AIS) data from the first public data release (GR1), matched to the Sloan Digital Sky Survey (SDSS) DR3 catalog, to perform source classification. The GALEXsurveys provide photometry in far- and near-UV bands and the SDSS in five optical bands (u, g, r, i, z). The GR1/DR3 overlapping areas are 363 (86) deg2 for the GALEXAIS (MIS), for sources within the 0.5° central area of the GALEX fields. Our sample covers mostly |b| > 30° Galactic latitudes. We present statistical properties of the GALEX-SDSS matched sources catalog, containing >2 × 106 objects detected in at least one UV band. We classify the matched sources by comparing the seven-band photometry to model colors constructed for different classes of astrophysical objects. For sources with photometric errors <0.3 mag, the corresponding typical AB-magnitude limits are mFUV ∼21.5, m NUV ∼ 22.5 for AIS, and mFUV ∼24, mNUV ∼ 24.5 for MIS. At AIS depth, the number of Galactic and extragalactic objects are comparable, but the latter predominate in the MIS. On the basis of our stellar models, we estimate the GALEXsurveys detect hot white dwarfs throughout the Milky Way halo (down to a radius of 0.04 R⊙ at MIS depth), providing an unprecedented improvement in the Galactic WD census. Their observed surface density is consistent with Milky Way model predictions. We also select low-redshift QSO candidates, extending the known QSO samples to lower magnitudes, and providing z ≈ 1 candidates for detailed z ≈ 1 follow-up investigations. SDSS optical spectra available for a large subsample confirm the classification for the photometrically selected candidates with 97% purity for single hot stars, ≈45% (AIS) or 31% (MIS) for binaries containing a hot star and a cooler companion, and about 85% for QSOs.",

keywords = "Galaxy: stellar content, Quasars: general, Stars: statistics, Surveys, Ultraviolet: stars, White dwarfs",

author = "Luciana Bianchi and Lino Rodriguez-Merino and Maurice Viton and Michel Laget and Boryana Efremova and James Herald and Alberto Conti and Bernie Shiao and {De Paz}, {Armando Gil} and Samir Salim and A. Thakar and Friedman, {Peter G.} and Rey, {Soo Chang} and David Thilker and Barlow, {Tom A.} and Tam{\'a}s Budav{\'a}ri and Jos{\'e} Donas and Karl Forster and Heckman, {Timothy M.} and Lee, {Young Wook} and Madore, {Barry F.} and Martin, {D. Christopher} and Bruno Milliard and Patrick Morrissey and Neff, {Susan G.} and Rich, {R. Michael} and David Schiminovich and Mark Seibert and Todd Small and Szalay, {Alex S.} and Wyder, {Ted K.} and Welsh, {Barry Y.} and Yi, {Sukyoung K.}",

year = "2007",

month = dec,

doi = "10.1086/516648",

language = "English (US)",

volume = "173",

pages = "669--672",

journal = "Astrophysical Journal, Supplement Series",

issn = "0067-0049",

publisher = "American Astronomical Society",

number = "2",

}

TY - JOUR

T1 - Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources

AU - Bianchi, Luciana

AU - Rodriguez-Merino, Lino

AU - Viton, Maurice

AU - Laget, Michel

AU - Efremova, Boryana

AU - Herald, James

AU - Conti, Alberto

AU - Shiao, Bernie

AU - De Paz, Armando Gil

AU - Salim, Samir

AU - Thakar, A.

AU - Friedman, Peter G.

AU - Rey, Soo Chang

AU - Thilker, David

AU - Barlow, Tom A.

AU - Budavári, Tamás

AU - Donas, José

AU - Forster, Karl

AU - Heckman, Timothy M.

AU - Lee, Young Wook

AU - Madore, Barry F.

AU - Martin, D. Christopher

AU - Milliard, Bruno

AU - Morrissey, Patrick

AU - Neff, Susan G.

AU - Rich, R. Michael

AU - Schiminovich, David

AU - Seibert, Mark

AU - Small, Todd

AU - Szalay, Alex S.

AU - Wyder, Ted K.

AU - Welsh, Barry Y.

AU - Yi, Sukyoung K.

PY - 2007/12

Y1 - 2007/12

N2 - We use the Galaxy Evolution Explorer (GALEX) Medium and All-Sky Imaging Survey (MIS and AIS) data from the first public data release (GR1), matched to the Sloan Digital Sky Survey (SDSS) DR3 catalog, to perform source classification. The GALEXsurveys provide photometry in far- and near-UV bands and the SDSS in five optical bands (u, g, r, i, z). The GR1/DR3 overlapping areas are 363 (86) deg2 for the GALEXAIS (MIS), for sources within the 0.5° central area of the GALEX fields. Our sample covers mostly |b| > 30° Galactic latitudes. We present statistical properties of the GALEX-SDSS matched sources catalog, containing >2 × 106 objects detected in at least one UV band. We classify the matched sources by comparing the seven-band photometry to model colors constructed for different classes of astrophysical objects. For sources with photometric errors <0.3 mag, the corresponding typical AB-magnitude limits are mFUV ∼21.5, m NUV ∼ 22.5 for AIS, and mFUV ∼24, mNUV ∼ 24.5 for MIS. At AIS depth, the number of Galactic and extragalactic objects are comparable, but the latter predominate in the MIS. On the basis of our stellar models, we estimate the GALEXsurveys detect hot white dwarfs throughout the Milky Way halo (down to a radius of 0.04 R⊙ at MIS depth), providing an unprecedented improvement in the Galactic WD census. Their observed surface density is consistent with Milky Way model predictions. We also select low-redshift QSO candidates, extending the known QSO samples to lower magnitudes, and providing z ≈ 1 candidates for detailed z ≈ 1 follow-up investigations. SDSS optical spectra available for a large subsample confirm the classification for the photometrically selected candidates with 97% purity for single hot stars, ≈45% (AIS) or 31% (MIS) for binaries containing a hot star and a cooler companion, and about 85% for QSOs.

AB - We use the Galaxy Evolution Explorer (GALEX) Medium and All-Sky Imaging Survey (MIS and AIS) data from the first public data release (GR1), matched to the Sloan Digital Sky Survey (SDSS) DR3 catalog, to perform source classification. The GALEXsurveys provide photometry in far- and near-UV bands and the SDSS in five optical bands (u, g, r, i, z). The GR1/DR3 overlapping areas are 363 (86) deg2 for the GALEXAIS (MIS), for sources within the 0.5° central area of the GALEX fields. Our sample covers mostly |b| > 30° Galactic latitudes. We present statistical properties of the GALEX-SDSS matched sources catalog, containing >2 × 106 objects detected in at least one UV band. We classify the matched sources by comparing the seven-band photometry to model colors constructed for different classes of astrophysical objects. For sources with photometric errors <0.3 mag, the corresponding typical AB-magnitude limits are mFUV ∼21.5, m NUV ∼ 22.5 for AIS, and mFUV ∼24, mNUV ∼ 24.5 for MIS. At AIS depth, the number of Galactic and extragalactic objects are comparable, but the latter predominate in the MIS. On the basis of our stellar models, we estimate the GALEXsurveys detect hot white dwarfs throughout the Milky Way halo (down to a radius of 0.04 R⊙ at MIS depth), providing an unprecedented improvement in the Galactic WD census. Their observed surface density is consistent with Milky Way model predictions. We also select low-redshift QSO candidates, extending the known QSO samples to lower magnitudes, and providing z ≈ 1 candidates for detailed z ≈ 1 follow-up investigations. SDSS optical spectra available for a large subsample confirm the classification for the photometrically selected candidates with 97% purity for single hot stars, ≈45% (AIS) or 31% (MIS) for binaries containing a hot star and a cooler companion, and about 85% for QSOs.

KW - Galaxy: stellar content

KW - Quasars: general

KW - Stars: statistics

KW - Surveys

KW - Ultraviolet: stars

KW - White dwarfs

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UR - http://www.scopus.com/inward/citedby.url?scp=39449118619&partnerID=8YFLogxK

U2 - 10.1086/516648

DO - 10.1086/516648

M3 - Article

AN - SCOPUS:39449118619

SN - 0067-0049

VL - 173

SP - 669

EP - 672

JO - Astrophysical Journal, Supplement Series

JF - Astrophysical Journal, Supplement Series

IS - 2

ER -

Statistical properties of the GALEX-SDSS matched source catalogs, and classification of the UV sources

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Keywords

ASJC Scopus subject areas

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