Mid-infrared variability from the spitzer deep wide-field survey

Mid-infrared variability from the spitzer deep wide-field survey

We use the multi-epoch, mid-infrared Spitzer Deep Wide-Field Survey to investigate the variability of objects in 8.1 deg2 of the NOAO Deep Wide Field Survey Boötes field. We perform a Difference Image Analysis of the four available epochs between 2004 and 2008, focusing on the deeper 3.6 and 4.5 µm...

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Main Authors: Kozlowski, S., Kochanek, C., Stern, D., Ashby, M., Assef, R., Bock, J., Borys, C., Brand, K., Brodwin, M., Brown, M., Cool, R., Cooray, A., Croft, S., Dey, A., Eisenhardt, P., Gonzalez, A., Gorjian, V., Griffith, R., Grogin, N., Ivison, R., Jacob, J., Jannuzi, B., Mainzer, A., Moustakas, L., Röttgering, H., Seymour, Nick, Smith, H., Stanford, S., Stauffer, J., Sullivan, I., Van Breugel, W., Willner, S., Wright, E.
Format: Journal Article
Published: Institute of Physics Publishing 2010
Online Access:http://hdl.handle.net/20.500.11937/3672
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author Kozlowski, S.
Kochanek, C.
Stern, D.
Ashby, M.
Assef, R.
Bock, J.
Borys, C.
Brand, K.
Brodwin, M.
Brown, M.
Cool, R.
Cooray, A.
Croft, S.
Dey, A.
Eisenhardt, P.
Gonzalez, A.
Gorjian, V.
Griffith, R.
Grogin, N.
Ivison, R.
Jacob, J.
Jannuzi, B.
Mainzer, A.
Moustakas, L.
Röttgering, H.
Seymour, Nick
Smith, H.
Stanford, S.
Stauffer, J.
Sullivan, I.
Van Breugel, W.
Willner, S.
Wright, E.
author_facet Kozlowski, S.
Kochanek, C.
Stern, D.
Ashby, M.
Assef, R.
Bock, J.
Borys, C.
Brand, K.
Brodwin, M.
Brown, M.
Cool, R.
Cooray, A.
Croft, S.
Dey, A.
Eisenhardt, P.
Gonzalez, A.
Gorjian, V.
Griffith, R.
Grogin, N.
Ivison, R.
Jacob, J.
Jannuzi, B.
Mainzer, A.
Moustakas, L.
Röttgering, H.
Seymour, Nick
Smith, H.
Stanford, S.
Stauffer, J.
Sullivan, I.
Van Breugel, W.
Willner, S.
Wright, E.
author_sort Kozlowski, S.
building Curtin Institutional Repository
collection Online Access
description We use the multi-epoch, mid-infrared Spitzer Deep Wide-Field Survey to investigate the variability of objects in 8.1 deg2 of the NOAO Deep Wide Field Survey Boötes field. We perform a Difference Image Analysis of the four available epochs between 2004 and 2008, focusing on the deeper 3.6 and 4.5 µm bands. Out of 474, 179 analyzed sources, 1.1% meet our standard variability selection criteria that the two light curves are strongly correlated (r>0.8) and that their joint variance (s12) exceeds that for all sources with the same magnitude by 2s. We then examine the mid-IR colors of the variable sources and match them with X-ray sources from the XBoötes survey, radio catalogs, 24 µm selected active galactic nucleus (AGN) candidates, and spectroscopically identified AGNs from the AGN and Galaxy Evolution Survey (AGES). Based on their mid-IR colors, most of the variable sources are AGNs (76%), with smaller contributions from stars (11%), galaxies (6%), and unclassified objects, although most of the stellar, galaxy, and unclassified sources are false positives. For our standard selection criteria, 11%-12% of the mid-IR counterparts to X-ray sources, 24 µm AGN candidates, and spectroscopically identified AGNs show variability. The exact fractions depend on both the search depth and the selection criteria. For example, 12% of the 1131 known z>1 AGNs in the field and 14%-17% of the known AGNs with well-measured fluxes in all four Infrared Array Camera bands meet our standard selection criteria. The mid-IR AGN variability can be well described by a single power-law structure function with an index of ? ˜ 0.5 at both 3.6 and 4.5 µm, and an amplitude of S 0 ? 0.1 mag on rest-frame timescales of 2 yr. The variability amplitude is higher for shorter rest-frame wavelengths and lower luminosities. © 2010. The American Astronomical Society. All rights reserved.
first_indexed 2025-11-14T05:59:12Z
format Journal Article
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institution Curtin University Malaysia
institution_category Local University
last_indexed 2025-11-14T05:59:12Z
publishDate 2010
publisher Institute of Physics Publishing
recordtype eprints
repository_type Digital Repository
spelling curtin-20.500.11937-36722023-02-22T06:24:16Z Mid-infrared variability from the spitzer deep wide-field survey Kozlowski, S. Kochanek, C. Stern, D. Ashby, M. Assef, R. Bock, J. Borys, C. Brand, K. Brodwin, M. Brown, M. Cool, R. Cooray, A. Croft, S. Dey, A. Eisenhardt, P. Gonzalez, A. Gorjian, V. Griffith, R. Grogin, N. Ivison, R. Jacob, J. Jannuzi, B. Mainzer, A. Moustakas, L. Röttgering, H. Seymour, Nick Smith, H. Stanford, S. Stauffer, J. Sullivan, I. Van Breugel, W. Willner, S. Wright, E. We use the multi-epoch, mid-infrared Spitzer Deep Wide-Field Survey to investigate the variability of objects in 8.1 deg2 of the NOAO Deep Wide Field Survey Boötes field. We perform a Difference Image Analysis of the four available epochs between 2004 and 2008, focusing on the deeper 3.6 and 4.5 µm bands. Out of 474, 179 analyzed sources, 1.1% meet our standard variability selection criteria that the two light curves are strongly correlated (r>0.8) and that their joint variance (s12) exceeds that for all sources with the same magnitude by 2s. We then examine the mid-IR colors of the variable sources and match them with X-ray sources from the XBoötes survey, radio catalogs, 24 µm selected active galactic nucleus (AGN) candidates, and spectroscopically identified AGNs from the AGN and Galaxy Evolution Survey (AGES). Based on their mid-IR colors, most of the variable sources are AGNs (76%), with smaller contributions from stars (11%), galaxies (6%), and unclassified objects, although most of the stellar, galaxy, and unclassified sources are false positives. For our standard selection criteria, 11%-12% of the mid-IR counterparts to X-ray sources, 24 µm AGN candidates, and spectroscopically identified AGNs show variability. The exact fractions depend on both the search depth and the selection criteria. For example, 12% of the 1131 known z>1 AGNs in the field and 14%-17% of the known AGNs with well-measured fluxes in all four Infrared Array Camera bands meet our standard selection criteria. The mid-IR AGN variability can be well described by a single power-law structure function with an index of ? ˜ 0.5 at both 3.6 and 4.5 µm, and an amplitude of S 0 ? 0.1 mag on rest-frame timescales of 2 yr. The variability amplitude is higher for shorter rest-frame wavelengths and lower luminosities. © 2010. The American Astronomical Society. All rights reserved. 2010 Journal Article http://hdl.handle.net/20.500.11937/3672 10.1088/0004-637X/716/1/530 Institute of Physics Publishing unknown
spellingShingle Kozlowski, S.
Kochanek, C.
Stern, D.
Ashby, M.
Assef, R.
Bock, J.
Borys, C.
Brand, K.
Brodwin, M.
Brown, M.
Cool, R.
Cooray, A.
Croft, S.
Dey, A.
Eisenhardt, P.
Gonzalez, A.
Gorjian, V.
Griffith, R.
Grogin, N.
Ivison, R.
Jacob, J.
Jannuzi, B.
Mainzer, A.
Moustakas, L.
Röttgering, H.
Seymour, Nick
Smith, H.
Stanford, S.
Stauffer, J.
Sullivan, I.
Van Breugel, W.
Willner, S.
Wright, E.
Mid-infrared variability from the spitzer deep wide-field survey
title Mid-infrared variability from the spitzer deep wide-field survey
title_full Mid-infrared variability from the spitzer deep wide-field survey
title_fullStr Mid-infrared variability from the spitzer deep wide-field survey
title_full_unstemmed Mid-infrared variability from the spitzer deep wide-field survey
title_short Mid-infrared variability from the spitzer deep wide-field survey
title_sort mid-infrared variability from the spitzer deep wide-field survey
url http://hdl.handle.net/20.500.11937/3672

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