The nature of star formation at 24 μm in the group environment at 0.3 ≲ z ≲ 0.55

K.D. Tyler; G.H. Rieke; D.J. Wilman; S.L. McGee; R.G. Bower; L. Bai; J.S. Mulchaey; L.C. Parker; Y. Shi; D. Pierini

doi:10.1088/0004-637X/738/1/56

The nature of star formation at 24 μm in the group environment at 0.3 ≲ z ≲ 0.55

K.D. Tyler, G.H. Rieke, D.J. Wilman, S.L. McGee, R.G. Bower, L. Bai, J.S. Mulchaey, L.C. Parker, Y. Shi, D. Pierini

Physics and Astronomy

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

5 Citations (Scopus)

Abstract

Galaxy star formation rates (SFRs) are sensitive to the local environment; for example, the high-density regions at the cores of dense clusters are known to suppress star formation. It has been suggested that galaxy transformation occurs largely in groups, which are the intermediate step in density between field and cluster environments. In this paper, we use deep MIPS 24 μm observations of intermediate-redshift (0.3 ≲ z ≲ 0.55) group and field galaxies from the Group Environment and Evolution Collaboration (GEEC) subset of the Second Canadian Network for Observational Cosmology (CNOC2) survey to probe the moderate-density environment of groups, wherein the majority of galaxies are found. The completeness limit of our study is log (L TIR(L ∞)) ≳ 10.5, corresponding to SFR ≳2.7 M ∞ yr-1. We find that the group and field galaxies have different distributions of morphologies and mass. However, individual group galaxies have star-forming properties comparable to those of field galaxies of similar mass and morphology; that is, the group environment does not appear to modify the properties of these galaxies directly. There is a relatively large number of massive early-type group spirals, along with E/S0 galaxies, that are forming stars above our detection limit. These galaxies account for the nearly comparable level of star-forming activity in groups as compared with the field, despite the differences in mass and morphology distributions between the two environments. The distribution of specific SFRs (SFR/M *) is shifted to lower values in the groups, reflecting the fact that groups contain a higher proportion of massive and less active galaxies. Considering the distributions of morphology, mass, and SFR, the group members appear to lie between field and cluster galaxies in overall properties. © 2011. The American Astronomical Society. All rights reserved.

Original language	English
Journal	The Astrophysical Journal
Volume	738
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/738/1/56
Publication status	Published - 2011

Bibliographical note

Export Date: 15 August 2017

Correspondence Address: Tyler, K.D.; Steward Observatory, University of Arizona, 933 N. Cherry Ave., Tucson, AZ 85721, United States

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Hou, A., Parker, L.C., Harris, W.E., Wilman, D.J., (2009) ApJ, 702 (2), p. 1199; Iovino, A., (2010) A&A, 509, p. 40; Johnson, K.E., Hibbard, J.E., Gallagher, S.C., Charlton, J.C., Hornschemeier, A.E., Jarrett, T.H., Reines, J.A., (2007) AJ, 134 (4), p. 1522; Just, D., Zaritsky, D., Sand, D.J., Desai, V., Rudnick, G., (2010) ApJ, 711 (1), p. 192; Kaviraj, S., Devriendt, J.E.G., Ferreras, I., Yi, S.K., Silk, J., (2009) A&A, 503, p. 445; Kaviraj, S., (2008) MNRAS, 388, p. 67; Kawata, D., Mulchaey, J.S., (2008) ApJ, 672 (2), p. 103; Kennicutt, R.C., (1983) ApJ, 272, p. 54; Kinney, J.D.P., Van Gorkom, J.H., Vollmer, B., (2004) AJ, 127 (6), p. 3361; Kova, K., (2010) ApJ, 718 (1), p. 86; Koyama, Y., Kodama, T., Shimasaku, K., Hayashi, M., Okamura, S., Tanaka, I., Tokoku, C., (2010) MNRAS, 403, p. 1611; Larson, R., (1974) MNRAS, 166, p. 585; Larson, R., (1980) ApJ, 237, p. 692; Le Floc'H, E., (2005) ApJ, 632 (1), p. 169; Lin, H., Yee, H.K.C., Carlberg, R.G., Morris, S.L., Sawicki, M., Patton, D., Wirth, G., Shepherd, C.W., (1999) ApJ, 518 (2), p. 533; Loh, Y.-S., Ellingson, E., Yee, H.K.C., Gilbank, D.G., Gladders, M.D., Barrientos, L.F., (2008) ApJ, 680 (1), p. 214; Marcillac, D., Rigby, J.R., Rieke, G.H., Kelly, D.M., (2007) ApJ, 654 (2), p. 825; Marcillac, D., (2008) ApJ, 675 (2), p. 1156; Martig, M., Bournaud, F., Teyssier, R., Dekel, A., (2009) ApJ, 707 (1), p. 250; McCarthy, I.G., Frenk, C.S., Font, A.S., Lacey, C.G., Bower, R.G., Mitchell, N.L., Balogh, M.L., Theuns, T., (2008) MNRAS, 383, p. 593; McGee, S.L., Balogh, M.L., Bower, R.G., Font, A.S., McCarthy, I.G., (2009) MNRAS, 400, p. 937; McGee, S.L., Balogh, M.L., Henderson, R.D.E., Wilman, D.J., Bower, R.G., Mulchaey, J.S., Oemler, Jr.A., (2008) MNRAS, 387, p. 1605; McGee, S.L., (2011) MNRAS, 413, p. 996; Moustakas, J., Kennicutt Jr., R.C., Tremonti, C.A., (2006) ApJ, 642 (2), p. 775; Noeske, K.G., (2007) ApJ, 660 (1), p. 43; Nolthenius, R., White, S.D.M., (1987) MNRAS, 235, p. 505; Patel, S.G., Holden, B.P., Kelson, D.D., Illingworth, G.D., Franx, M., (2009) ApJ, 705 (1), p. 67; Peng, Y.-J., (2010) ApJ, 721 (1), p. 193; Pérez-Gonzlez, P.G., Trujillo, I., Barro, G., Gallego, J., Zamorano, J., Conselice, C.J., (2008) ApJ, 687 (1), p. 50; Plionis, M., Tovmassian, H.M., (2004) A&A, 416, p. 441; Poggianti, B.M., (2006) ApJ, 642 (1), p. 188; Postman, M., Geller, M., (1984) ApJ, 281, p. 95; Rieke, G.H., Alonso-Herrero, A., Weiner, B.J., Pérez-Gonzles, P.G., Blaylock, M., Donley, J.L., Marcillac, D., (2009) ApJ, 692 (1), p. 556; Rieke, G.H., (2004) ApJS, 154 (1), p. 25; Rujopakarn, W., (2010) ApJ, 718 (2), p. 1171; Salim, S., (2007) ApJS, 173 (2), p. 267; Shi, Y., Rieke, G.H., Lotz, J., Pérez-Gonzlez, P.G., (2009) ApJ, 697 (2), p. 1764; Silverman, J.D., (2009) ApJ, 695 (1), p. 171; Simard, L., (2009) A&A, 508, p. 1141; Temi, P., Brighenti, F., Mathews, W.G., (2009) ApJ, 707 (2), p. 890; Tran, K.-V.H., Saintonge, A., Moustakas, J., Bai, L., Gonzalez, A.H., Holden, B.P., Zaritsky, D., Kautsch, S.J., (2009) ApJ, 705 (1), p. 809; Tully, R.B., (1989) Nearby Galaxies Catalog; Van Der Wel, A., Franx, M., Illingworth, G.D., Van Dokkum, P.G., (2007) ApJ, 666 (2), p. 863; Vulcani, B., Poggianti, B.M., Finn, R.A., Rudnick, G., Desai, V., Bamford, S., (2010) ApJ, 710 (1), p. 1; Wilman, D.J., Balogh, M.L., Bower, R.G., Mulchaey, J.S., Oemler Jr., A., Carlberg, R.G., Morris, S.L., Whitaker, R.J., (2005) MNRAS, 358, p. 71; Wilman, D.J., (2005) MNRAS, 358, p. 88; Wilman, D.J., (2008) ApJ, 680 (2), p. 1009; Wilman, D.J., (2009) ApJ, 692 (1), p. 298; Yee, H.K.C., (2000) ApJS, 129 (2), p. 475; Zabludoff, A.I., Mulchaey, J.S., (1998) ApJ, 496 (1), p. 39; Zabludoff, A.I., Mulchaey, J.S., (2000) ApJ, 539 (1), p. 136

Keywords

galaxies: evolution
galaxies: photometry
infrared: galaxies

Access to Document

10.1088/0004-637X/738/1/56

https://www.scopus.com/inward/record.uri?eid=2-s2.0-80052703504&doi=10.1088%2f0004-637X%2f738%2f1%2f56&partnerID=40&md5=2b42c32875a2e3e1cee9be5ec5bb17a8

Cite this

@article{bfebf5dfb3764cfaa907521a7e3f3d0b,

title = "The nature of star formation at 24 μm in the group environment at 0.3 ≲ z ≲ 0.55",

abstract = "Galaxy star formation rates (SFRs) are sensitive to the local environment; for example, the high-density regions at the cores of dense clusters are known to suppress star formation. It has been suggested that galaxy transformation occurs largely in groups, which are the intermediate step in density between field and cluster environments. In this paper, we use deep MIPS 24 μm observations of intermediate-redshift (0.3 ≲ z ≲ 0.55) group and field galaxies from the Group Environment and Evolution Collaboration (GEEC) subset of the Second Canadian Network for Observational Cosmology (CNOC2) survey to probe the moderate-density environment of groups, wherein the majority of galaxies are found. The completeness limit of our study is log (L TIR(L ∞)) ≳ 10.5, corresponding to SFR ≳2.7 M ∞ yr-1. We find that the group and field galaxies have different distributions of morphologies and mass. However, individual group galaxies have star-forming properties comparable to those of field galaxies of similar mass and morphology; that is, the group environment does not appear to modify the properties of these galaxies directly. There is a relatively large number of massive early-type group spirals, along with E/S0 galaxies, that are forming stars above our detection limit. These galaxies account for the nearly comparable level of star-forming activity in groups as compared with the field, despite the differences in mass and morphology distributions between the two environments. The distribution of specific SFRs (SFR/M *) is shifted to lower values in the groups, reflecting the fact that groups contain a higher proportion of massive and less active galaxies. Considering the distributions of morphology, mass, and SFR, the group members appear to lie between field and cluster galaxies in overall properties. {\textcopyright} 2011. The American Astronomical Society. All rights reserved.",

keywords = "galaxies: evolution, galaxies: photometry, infrared: galaxies",

author = "K.D. Tyler and G.H. Rieke and D.J. Wilman and S.L. McGee and R.G. Bower and L. Bai and J.S. Mulchaey and L.C. Parker and Y. Shi and D. Pierini",

note = "Export Date: 15 August 2017 Correspondence Address: Tyler, K.D.; Steward Observatory, University of Arizona, 933 N. Cherry Ave., Tucson, AZ 85721, United States References: Abraham, R.G., Valdes, F., Yee, H.K.C., Van Den Bergh, S., (1994) ApJ, 432, p. 75; Abraham, R.G., Van Den Bergh, S., Glazebrook, K., Ellis, R.S., Santiago, B.X., Surma, P., Griffiths, R.E., (1996) ApJS, 107, p. 1; Andreon, S., Willis, J., Quintana, H., Valtchanov, I., Pierre, M., Pacaud, F., (2004) MNRAS, 353, p. 353; Bai, L., Rasmussen, J., Mulchaey, J.S., Dariush, A., Raychaudhury, S., Ponman, T.J., (2010) ApJ, 713 (1), p. 637; Bai, L., Rieke, G.H., Rieke, M.J., Christlein, D., Zabludoff, A.I., (2009) ApJ, 693 (2), p. 1840; Bai, L., Rieke, G.H., Rieke, M.J., Hinz, J.L., Kelly, D.M., Blaylock, M., (2006) ApJ, 639 (2), p. 827; Bai, L., (2007) ApJ, 664 (1), p. 181; Balogh, M.L., McGee, S.L., (2010) MNRAS, 402, p. 59; Balogh, M.L., Morris, S.L., Yee, H.K.C., Carlberg, R.G., Ellingson, E., (1997) ApJ, 488 (2), p. 75; Balogh, M.L., Morris, S.L., Yee, H.K.C., Carlberg, R.G., Ellingson, E., (1999) ApJ, 527 (1), p. 54; Balogh, M.L., Navarro, J.F., Morris, S.L., (2000) ApJ, 540 (1), p. 113; Balogh, M.L., (2004) MNRAS, 348, p. 1355; Balogh, M.L., (2007) MNRAS, 374, p. 1169; Balogh, M.L., (2009) MNRAS, 398, p. 754; Biviano, A., Katgert, P., (2004) A&A, 424, p. 779; Bower, R.G., Benson, A.J., Malbon, R., Helly, J.C., Frenk, C.S., Baugh, C.M., Cole, S., Lacey, C.G., (2006) MNRAS, 370, p. 645; Bruzual, G., Charlot, S., (2003) MNRAS, 344, p. 1000; Butcher, H., Oemler Jr., A., (1978) ApJ, 219, p. 18; Carlberg, R.G., Yee, H.K.C., Morris, S.L., Lin, H., Hall, P.B., Patton, D.R., Sawicki, M., Shepherd, C.W., (2001) ApJ, 552 (2), p. 427; Carlberg, R.G., Yee, H.K.C., Morris, S.L., Lin, H., Hall, P.B., Patton, D.R., Sawicki, M., Shepherd, C.W., (2001) ApJ, 563 (2), p. 736; Charlot, S., Fall, S.M., (2000) ApJ, 539 (2), p. 718; Chiosi, C., Carraro, G., (2002) MNRAS, 335, p. 335; Conselice, C.J., Bershady, M.A., Dickinson, M., Papovich, C., (2003) AJ, 126 (3), p. 1183; Conselice, C.J., Bershady, M.A., Jangren, A., (2000) ApJ, 529 (2), p. 886; Cooper, M.C., (2007) MNRAS, 376, p. 1445; Cortese, L., Gavazzi, G., Boselli, A., (2008) MNRAS, 390, p. 1282; Cucciati, O., (2010) A&A, 524, p. 2; Devereux, N.A., Hameed, S., (1997) AJ, 113, p. 599; Dressler, A., (1980) ApJ, 236, p. 351; Dressler, A., Rigby, J.R., Oemler, A., Fritz, J., Poggianti, B.M., Rieke, G.H., Bai, L., (2009) ApJ, 693 (1), p. 140; Dwarakanath, K.S., Nath, B.B., (2006) ApJ, 653 (1), p. 9; Eke, V., (2004) MNRAS, 348, p. 866; Ellingson, E., Lin, H., Yee, H.K.C., Carlberg, R.G., (2001) ApJ, 547 (2), p. 609; Finn, R.A., (2010) ApJ, 720 (1), p. 87; Finoguenov, A., (2009) ApJ, 704 (1), p. 764; Geach, J.E., Smail, I., Moran, S.M., Treu, T., Ellis, R.S., (2009) ApJ, 691 (1), p. 783; Geller, M., Huchra, J., (1983) ApJS, 52, p. 61; Gerke, B.F., (2007) MNRAS, 376, p. 1425; Gilbank, D.G., Baldry, I.K., Balogh, M.L., Glazebrook, K., Bower, R.G., (2010) MNRAS, 405, p. 2594; Gordon, K.D., (2007) PASP, 119, p. 1019; Gunn, J., Gott, J., (1972) ApJ, 176, p. 1; Haines, C.P., (2009) ApJ, 704 (1), p. 126; Hashimoto, Y., Oemler Jr., A., Lin, H., Tucker, D.L., (1998) ApJ, 499 (2), p. 589; Henriksen, M., Byrd, G., (1996) ApJ, 459, p. 82; Hou, A., Parker, L.C., Harris, W.E., Wilman, D.J., (2009) ApJ, 702 (2), p. 1199; Iovino, A., (2010) A&A, 509, p. 40; Johnson, K.E., Hibbard, J.E., Gallagher, S.C., Charlton, J.C., Hornschemeier, A.E., Jarrett, T.H., Reines, J.A., (2007) AJ, 134 (4), p. 1522; Just, D., Zaritsky, D., Sand, D.J., Desai, V., Rudnick, G., (2010) ApJ, 711 (1), p. 192; Kaviraj, S., Devriendt, J.E.G., Ferreras, I., Yi, S.K., Silk, J., (2009) A&A, 503, p. 445; Kaviraj, S., (2008) MNRAS, 388, p. 67; Kawata, D., Mulchaey, J.S., (2008) ApJ, 672 (2), p. 103; Kennicutt, R.C., (1983) ApJ, 272, p. 54; Kinney, J.D.P., Van Gorkom, J.H., Vollmer, B., (2004) AJ, 127 (6), p. 3361; Kova, K., (2010) ApJ, 718 (1), p. 86; Koyama, Y., Kodama, T., Shimasaku, K., Hayashi, M., Okamura, S., Tanaka, I., Tokoku, C., (2010) MNRAS, 403, p. 1611; Larson, R., (1974) MNRAS, 166, p. 585; Larson, R., (1980) ApJ, 237, p. 692; Le Floc'H, E., (2005) ApJ, 632 (1), p. 169; Lin, H., Yee, H.K.C., Carlberg, R.G., Morris, S.L., Sawicki, M., Patton, D., Wirth, G., Shepherd, C.W., (1999) ApJ, 518 (2), p. 533; Loh, Y.-S., Ellingson, E., Yee, H.K.C., Gilbank, D.G., Gladders, M.D., Barrientos, L.F., (2008) ApJ, 680 (1), p. 214; Marcillac, D., Rigby, J.R., Rieke, G.H., Kelly, D.M., (2007) ApJ, 654 (2), p. 825; Marcillac, D., (2008) ApJ, 675 (2), p. 1156; Martig, M., Bournaud, F., Teyssier, R., Dekel, A., (2009) ApJ, 707 (1), p. 250; McCarthy, I.G., Frenk, C.S., Font, A.S., Lacey, C.G., Bower, R.G., Mitchell, N.L., Balogh, M.L., Theuns, T., (2008) MNRAS, 383, p. 593; McGee, S.L., Balogh, M.L., Bower, R.G., Font, A.S., McCarthy, I.G., (2009) MNRAS, 400, p. 937; McGee, S.L., Balogh, M.L., Henderson, R.D.E., Wilman, D.J., Bower, R.G., Mulchaey, J.S., Oemler, Jr.A., (2008) MNRAS, 387, p. 1605; McGee, S.L., (2011) MNRAS, 413, p. 996; Moustakas, J., Kennicutt Jr., R.C., Tremonti, C.A., (2006) ApJ, 642 (2), p. 775; Noeske, K.G., (2007) ApJ, 660 (1), p. 43; Nolthenius, R., White, S.D.M., (1987) MNRAS, 235, p. 505; Patel, S.G., Holden, B.P., Kelson, D.D., Illingworth, G.D., Franx, M., (2009) ApJ, 705 (1), p. 67; Peng, Y.-J., (2010) ApJ, 721 (1), p. 193; P{\'e}rez-Gonzlez, P.G., Trujillo, I., Barro, G., Gallego, J., Zamorano, J., Conselice, C.J., (2008) ApJ, 687 (1), p. 50; Plionis, M., Tovmassian, H.M., (2004) A&A, 416, p. 441; Poggianti, B.M., (2006) ApJ, 642 (1), p. 188; Postman, M., Geller, M., (1984) ApJ, 281, p. 95; Rieke, G.H., Alonso-Herrero, A., Weiner, B.J., P{\'e}rez-Gonzles, P.G., Blaylock, M., Donley, J.L., Marcillac, D., (2009) ApJ, 692 (1), p. 556; Rieke, G.H., (2004) ApJS, 154 (1), p. 25; Rujopakarn, W., (2010) ApJ, 718 (2), p. 1171; Salim, S., (2007) ApJS, 173 (2), p. 267; Shi, Y., Rieke, G.H., Lotz, J., P{\'e}rez-Gonzlez, P.G., (2009) ApJ, 697 (2), p. 1764; Silverman, J.D., (2009) ApJ, 695 (1), p. 171; Simard, L., (2009) A&A, 508, p. 1141; Temi, P., Brighenti, F., Mathews, W.G., (2009) ApJ, 707 (2), p. 890; Tran, K.-V.H., Saintonge, A., Moustakas, J., Bai, L., Gonzalez, A.H., Holden, B.P., Zaritsky, D., Kautsch, S.J., (2009) ApJ, 705 (1), p. 809; Tully, R.B., (1989) Nearby Galaxies Catalog; Van Der Wel, A., Franx, M., Illingworth, G.D., Van Dokkum, P.G., (2007) ApJ, 666 (2), p. 863; Vulcani, B., Poggianti, B.M., Finn, R.A., Rudnick, G., Desai, V., Bamford, S., (2010) ApJ, 710 (1), p. 1; Wilman, D.J., Balogh, M.L., Bower, R.G., Mulchaey, J.S., Oemler Jr., A., Carlberg, R.G., Morris, S.L., Whitaker, R.J., (2005) MNRAS, 358, p. 71; Wilman, D.J., (2005) MNRAS, 358, p. 88; Wilman, D.J., (2008) ApJ, 680 (2), p. 1009; Wilman, D.J., (2009) ApJ, 692 (1), p. 298; Yee, H.K.C., (2000) ApJS, 129 (2), p. 475; Zabludoff, A.I., Mulchaey, J.S., (1998) ApJ, 496 (1), p. 39; Zabludoff, A.I., Mulchaey, J.S., (2000) ApJ, 539 (1), p. 136",

year = "2011",

doi = "10.1088/0004-637X/738/1/56",

language = "English",

volume = "738",

journal = "The Astrophysical Journal",

issn = "0004637X",

publisher = "Institute of Physics Publishing Ltd",

number = "1",

}

TY - JOUR

T1 - The nature of star formation at 24 μm in the group environment at 0.3 ≲ z ≲ 0.55

AU - Tyler, K.D.

AU - Rieke, G.H.

AU - Wilman, D.J.

AU - McGee, S.L.

AU - Bower, R.G.

AU - Bai, L.

AU - Mulchaey, J.S.

AU - Parker, L.C.

AU - Shi, Y.

AU - Pierini, D.

N1 - Export Date: 15 August 2017 Correspondence Address: Tyler, K.D.; Steward Observatory, University of Arizona, 933 N. 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PY - 2011

Y1 - 2011

N2 - Galaxy star formation rates (SFRs) are sensitive to the local environment; for example, the high-density regions at the cores of dense clusters are known to suppress star formation. It has been suggested that galaxy transformation occurs largely in groups, which are the intermediate step in density between field and cluster environments. In this paper, we use deep MIPS 24 μm observations of intermediate-redshift (0.3 ≲ z ≲ 0.55) group and field galaxies from the Group Environment and Evolution Collaboration (GEEC) subset of the Second Canadian Network for Observational Cosmology (CNOC2) survey to probe the moderate-density environment of groups, wherein the majority of galaxies are found. The completeness limit of our study is log (L TIR(L ∞)) ≳ 10.5, corresponding to SFR ≳2.7 M ∞ yr-1. We find that the group and field galaxies have different distributions of morphologies and mass. However, individual group galaxies have star-forming properties comparable to those of field galaxies of similar mass and morphology; that is, the group environment does not appear to modify the properties of these galaxies directly. There is a relatively large number of massive early-type group spirals, along with E/S0 galaxies, that are forming stars above our detection limit. These galaxies account for the nearly comparable level of star-forming activity in groups as compared with the field, despite the differences in mass and morphology distributions between the two environments. The distribution of specific SFRs (SFR/M *) is shifted to lower values in the groups, reflecting the fact that groups contain a higher proportion of massive and less active galaxies. Considering the distributions of morphology, mass, and SFR, the group members appear to lie between field and cluster galaxies in overall properties. © 2011. The American Astronomical Society. All rights reserved.

AB - Galaxy star formation rates (SFRs) are sensitive to the local environment; for example, the high-density regions at the cores of dense clusters are known to suppress star formation. It has been suggested that galaxy transformation occurs largely in groups, which are the intermediate step in density between field and cluster environments. In this paper, we use deep MIPS 24 μm observations of intermediate-redshift (0.3 ≲ z ≲ 0.55) group and field galaxies from the Group Environment and Evolution Collaboration (GEEC) subset of the Second Canadian Network for Observational Cosmology (CNOC2) survey to probe the moderate-density environment of groups, wherein the majority of galaxies are found. The completeness limit of our study is log (L TIR(L ∞)) ≳ 10.5, corresponding to SFR ≳2.7 M ∞ yr-1. We find that the group and field galaxies have different distributions of morphologies and mass. However, individual group galaxies have star-forming properties comparable to those of field galaxies of similar mass and morphology; that is, the group environment does not appear to modify the properties of these galaxies directly. There is a relatively large number of massive early-type group spirals, along with E/S0 galaxies, that are forming stars above our detection limit. These galaxies account for the nearly comparable level of star-forming activity in groups as compared with the field, despite the differences in mass and morphology distributions between the two environments. The distribution of specific SFRs (SFR/M *) is shifted to lower values in the groups, reflecting the fact that groups contain a higher proportion of massive and less active galaxies. Considering the distributions of morphology, mass, and SFR, the group members appear to lie between field and cluster galaxies in overall properties. © 2011. The American Astronomical Society. All rights reserved.

KW - galaxies: evolution

KW - galaxies: photometry

KW - infrared: galaxies

U2 - 10.1088/0004-637X/738/1/56

DO - 10.1088/0004-637X/738/1/56

M3 - Article

SN - 0004637X

VL - 738

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 1

ER -

The nature of star formation at 24 μm in the group environment at 0.3 ≲ z ≲ 0.55

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