Implications of the remarkable homogeneity of galaxy groups and clusters

M.L. Balogh; S.L. McGee

doi:10.1111/j.1745-3933.2009.00800.x

Implications of the remarkable homogeneity of galaxy groups and clusters

M.L. Balogh, S.L. McGee

Physics and Astronomy

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

26 Citations (Scopus)

Abstract

We measure the diversity of galaxy groups and clusters with mass M > 1013 h-1 M⊙, in terms of the star formation history of their galaxy populations, for the purpose of constraining the mass scale at which environmentally important processes play a role in galaxy evolution. We consider three different group catalogues, selected in different ways, with photometry and spectroscopy from the Sloan Digital Sky Survey. For each system, we measure the fraction of passively evolving galaxies within R200 and brighter than either Mr = -18 (and with z < 0.05) or Mr = -20 (and z < 0.1). We use the (u - g) and (r - i) galaxy colours to distinguish between star-forming and passively evolving galaxies. By considering the binomial distribution expected from the observed number of members in each cluster, we are able to either recover the intrinsic scatter in this fraction or put robust 95 per cent confidence upper limits on its value. The intrinsic standard deviation in the fraction of passive galaxies is consistent with a small value of ≲0.1 in most mass bins for all three samples. There is no strong trend with mass; even groups with M ~ 1013 h-1 M⊙ are consistent with such a small, intrinsic distribution. We compare these results with theoretical models of the accretion history to show that, if environment plays a role in transforming galaxies, such effects must occur first at mass scales far below that of rich clusters, at most M ~ 1013 M⊙. © 2010 The Authors. Journal compilation © 2009 RAS.

Original language	English
Pages (from-to)	L59-L63
Journal	Monthly Notices of the Royal Astronomical Society: Letters
Volume	402
Issue number	1
DOIs	https://doi.org/10.1111/j.1745-3933.2009.00800.x
Publication status	Published - 2010

Bibliographical note

Export Date: 15 August 2017

Correspondence Address: Balogh, M.L.; Department of Physics and Astronomy, University of Waterloo, Waterloo, ON, N2L3G1, Canada; email: mbalogh@uwaterloo.ca

References: Aguerri, J.A.L., Sánchez-Janssen, R., Muñoz-Tuñón, C., (2007) A&A, 471, p. 17; Baldry, I.K., Glazebrook, K., Brinkmann, J., Ivezić, Z., Lupton, R.H., Nichol, R.C., Szalay, A.S., (2004) ApJ, 600, p. 681; Balogh, M.L., Navarro, J.F., Morris, S.L., (2000) ApJ, 540, p. 113; Barkhouse, W.A., Yee, H.K.C., Lopez-Cruz, O., (2009) ApJ, 703, p. 2024; Berlind, A.A., (2006) ApJS, 167, p. 1; Berrier, J.C., Stewart, K.R., Bullock, J.S., Purcell, C.W., Barton, E.J., Wechsler, R.H., (2009) ApJ, 690, p. 1292; Blanton, M.R., Roweis, S., (2007) AJ, 133, p. 734; Blanton, M.R., (2005) AJ, 129, p. 2562; Butcher, H., Oemler, A., (1984) ApJ, 285, p. 426; De Propris, R., (2004) MNRAS, 351, p. 125; Ellingson, E., Lin, H., Yee, H.K.C., Carlberg, R.G., (2001) ApJ, 547, p. 609; Fairley, B.W., Jones, L.R., Wake, D.A., Collins, C.A., Burke, D.J., Nichol, R.C., Romer, A.K., (2002) MNRAS, 330, p. 755; Finn, R.A., (2005) ApJ, 630, p. 206; Finn, R.A., Balogh, M.L., Zaritsky, D., Miller, C.J., Nichol, R.C., (2008) ApJ, 679, p. 279; Font, A.S., (2008) MNRAS, 389, p. 1619; Gehrels, N., (1986) ApJ, 303, p. 336; Haines, C.P., (2009), preprint; Hansen, S.M., Sheldon, E.S., Wechsler, R.H., Koester, B.P., (2009) ApJ, 699, p. 1333; Kimm, T., (2009) MNRAS, 394, p. 1131; Kodama, T., Bower, R.G., (2001) MNRAS, 321, p. 18; Lacey, C., Cole, S., (1994) MNRAS, 271, p. 676; Li, I.H., Yee, H.K.C., Ellingson, E., (2009) ApJ, 698, p. 83; Lu, T., Gilbank, D.G., Balogh, M.L., Bognat, A., (2009) MNRAS, 399, p. 1858; McGee, S.L., Balogh, M.L., Bower, R.G., Font, A.S., McCarthy, I.G., (2009) MNRAS, 400, p. 937; Margoniner, V.E., de Carvalho, R.R., Gal, R.R., Djorgovski, S.G., (2001) ApJ, 548, pp. L143; Miller, C.M., (2005) AJ, 130, p. 968; Okabe, N., Takada, M., Umetsu, K., Futamase, T., Smith, G.P., (2009) PASJ, , Submitted; Poggianti, B., (2006) ApJ, 642, p. 188; Popesso, P., Böhringer, H., Brinkmann, J., Voges, W., York, D.G., (2004) A&A, 423, p. 449; Popesso, P., Biviano, A., Böhringer, H., Romaniello, M., (2007) A&A, 464, p. 451; Popesso, P., Biviano, A., Romaniello, M., Böhringer, H., (2007) A&A, 461, p. 411; Pozzetti, L., (2009) A&A, , submitted; Reiprich, T.H., Böhringer, H., (2002) ApJ, 567, p. 716; Springel, V., (2005) Nat, 435, p. 629; Strateva, I., (2001) AJ, 122, p. 1861; Wake, D.A., Collins, C.A., Nichol, R.C., Jones, L.R., Burke, D.J., (2005) ApJ, 627, p. 186; Weinmann, S.M., van den Bosch, F.C., Yang, X., Mo, H.J., (2006) MNRAS, 366, p. 2; Wolf, C., Gray, M.E., Meisenheimer, K., (2005) A&A, 443, p. 435; Wolf, C., (2009) MNRAS, 393, p. 1302; Yang, X., Mo, H.J., van den Bosch, F.C., Jing, Y.P., (2005) MNRAS, 356, p. 1293; Yang, X., Mo, H.J., van den Bosch, F.C., Pasquali, A., Li, C., Barden, M., (2007) ApJ, 671, p. 153; York, D.G., (2000) AJ, 120, p. 1579; Zabludoff, A.I., Mulchaey, J.S., (1998) ApJ, 496, p. 39; Zhang, Y., Finoguenov, A., Böhringer, H., Kneib, J., Smith, G.P., Kneissl, R., Okabe, N., Dahle, H., (2008) A&A, 482, p. 451; Zhao, D.H., Mo, H.J., Jing, Y.P., Börner, G., (2003) MNRAS, 339, p. 12

Keywords

Galaxies: clusters: general

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10.1111/j.1745-3933.2009.00800.x

https://www.scopus.com/inward/record.uri?eid=2-s2.0-79952366288&doi=10.1111%2fj.1745-3933.2009.00800.x&partnerID=40&md5=a2ddbd769a19736837af68c080fa6719

Cite this

@article{aa92bc6fae144fe6aabf52799d73a101,

title = "Implications of the remarkable homogeneity of galaxy groups and clusters",

abstract = "We measure the diversity of galaxy groups and clusters with mass M > 1013 h-1 M⊙, in terms of the star formation history of their galaxy populations, for the purpose of constraining the mass scale at which environmentally important processes play a role in galaxy evolution. We consider three different group catalogues, selected in different ways, with photometry and spectroscopy from the Sloan Digital Sky Survey. For each system, we measure the fraction of passively evolving galaxies within R200 and brighter than either Mr = -18 (and with z < 0.05) or Mr = -20 (and z < 0.1). We use the (u - g) and (r - i) galaxy colours to distinguish between star-forming and passively evolving galaxies. By considering the binomial distribution expected from the observed number of members in each cluster, we are able to either recover the intrinsic scatter in this fraction or put robust 95 per cent confidence upper limits on its value. The intrinsic standard deviation in the fraction of passive galaxies is consistent with a small value of ≲0.1 in most mass bins for all three samples. There is no strong trend with mass; even groups with M ~ 1013 h-1 M⊙ are consistent with such a small, intrinsic distribution. We compare these results with theoretical models of the accretion history to show that, if environment plays a role in transforming galaxies, such effects must occur first at mass scales far below that of rich clusters, at most M ~ 1013 M⊙. {\textcopyright} 2010 The Authors. Journal compilation {\textcopyright} 2009 RAS.",

keywords = "Galaxies: clusters: general",

author = "M.L. Balogh and S.L. McGee",

note = "Export Date: 15 August 2017 Correspondence Address: Balogh, M.L.; Department of Physics and Astronomy, University of Waterloo, Waterloo, ON, N2L3G1, Canada; email: mbalogh@uwaterloo.ca References: Aguerri, J.A.L., S{\'a}nchez-Janssen, R., Mu{\~n}oz-Tu{\~n}{\'o}n, C., (2007) A&A, 471, p. 17; Baldry, I.K., Glazebrook, K., Brinkmann, J., Ivezi{\'c}, Z., Lupton, R.H., Nichol, R.C., Szalay, A.S., (2004) ApJ, 600, p. 681; Balogh, M.L., Navarro, J.F., Morris, S.L., (2000) ApJ, 540, p. 113; Barkhouse, W.A., Yee, H.K.C., Lopez-Cruz, O., (2009) ApJ, 703, p. 2024; Berlind, A.A., (2006) ApJS, 167, p. 1; Berrier, J.C., Stewart, K.R., Bullock, J.S., Purcell, C.W., Barton, E.J., Wechsler, R.H., (2009) ApJ, 690, p. 1292; Blanton, M.R., Roweis, S., (2007) AJ, 133, p. 734; Blanton, M.R., (2005) AJ, 129, p. 2562; Butcher, H., Oemler, A., (1984) ApJ, 285, p. 426; De Propris, R., (2004) MNRAS, 351, p. 125; Ellingson, E., Lin, H., Yee, H.K.C., Carlberg, R.G., (2001) ApJ, 547, p. 609; Fairley, B.W., Jones, L.R., Wake, D.A., Collins, C.A., Burke, D.J., Nichol, R.C., Romer, A.K., (2002) MNRAS, 330, p. 755; Finn, R.A., (2005) ApJ, 630, p. 206; Finn, R.A., Balogh, M.L., Zaritsky, D., Miller, C.J., Nichol, R.C., (2008) ApJ, 679, p. 279; Font, A.S., (2008) MNRAS, 389, p. 1619; Gehrels, N., (1986) ApJ, 303, p. 336; Haines, C.P., (2009), preprint; Hansen, S.M., Sheldon, E.S., Wechsler, R.H., Koester, B.P., (2009) ApJ, 699, p. 1333; Kimm, T., (2009) MNRAS, 394, p. 1131; Kodama, T., Bower, R.G., (2001) MNRAS, 321, p. 18; Lacey, C., Cole, S., (1994) MNRAS, 271, p. 676; Li, I.H., Yee, H.K.C., Ellingson, E., (2009) ApJ, 698, p. 83; Lu, T., Gilbank, D.G., Balogh, M.L., Bognat, A., (2009) MNRAS, 399, p. 1858; McGee, S.L., Balogh, M.L., Bower, R.G., Font, A.S., McCarthy, I.G., (2009) MNRAS, 400, p. 937; Margoniner, V.E., de Carvalho, R.R., Gal, R.R., Djorgovski, S.G., (2001) ApJ, 548, pp. L143; Miller, C.M., (2005) AJ, 130, p. 968; Okabe, N., Takada, M., Umetsu, K., Futamase, T., Smith, G.P., (2009) PASJ, , Submitted; Poggianti, B., (2006) ApJ, 642, p. 188; Popesso, P., B{\"o}hringer, H., Brinkmann, J., Voges, W., York, D.G., (2004) A&A, 423, p. 449; Popesso, P., Biviano, A., B{\"o}hringer, H., Romaniello, M., (2007) A&A, 464, p. 451; Popesso, P., Biviano, A., Romaniello, M., B{\"o}hringer, H., (2007) A&A, 461, p. 411; Pozzetti, L., (2009) A&A, , submitted; Reiprich, T.H., B{\"o}hringer, H., (2002) ApJ, 567, p. 716; Springel, V., (2005) Nat, 435, p. 629; Strateva, I., (2001) AJ, 122, p. 1861; Wake, D.A., Collins, C.A., Nichol, R.C., Jones, L.R., Burke, D.J., (2005) ApJ, 627, p. 186; Weinmann, S.M., van den Bosch, F.C., Yang, X., Mo, H.J., (2006) MNRAS, 366, p. 2; Wolf, C., Gray, M.E., Meisenheimer, K., (2005) A&A, 443, p. 435; Wolf, C., (2009) MNRAS, 393, p. 1302; Yang, X., Mo, H.J., van den Bosch, F.C., Jing, Y.P., (2005) MNRAS, 356, p. 1293; Yang, X., Mo, H.J., van den Bosch, F.C., Pasquali, A., Li, C., Barden, M., (2007) ApJ, 671, p. 153; York, D.G., (2000) AJ, 120, p. 1579; Zabludoff, A.I., Mulchaey, J.S., (1998) ApJ, 496, p. 39; Zhang, Y., Finoguenov, A., B{\"o}hringer, H., Kneib, J., Smith, G.P., Kneissl, R., Okabe, N., Dahle, H., (2008) A&A, 482, p. 451; Zhao, D.H., Mo, H.J., Jing, Y.P., B{\"o}rner, G., (2003) MNRAS, 339, p. 12",

year = "2010",

doi = "10.1111/j.1745-3933.2009.00800.x",

language = "English",

volume = "402",

pages = "L59--L63",

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

issn = "17453933",

publisher = "Oxford University Press",

number = "1",

}

TY - JOUR

T1 - Implications of the remarkable homogeneity of galaxy groups and clusters

AU - Balogh, M.L.

AU - McGee, S.L.

N1 - Export Date: 15 August 2017 Correspondence Address: Balogh, M.L.; Department of Physics and Astronomy, University of Waterloo, Waterloo, ON, N2L3G1, Canada; email: mbalogh@uwaterloo.ca References: Aguerri, J.A.L., Sánchez-Janssen, R., Muñoz-Tuñón, C., (2007) A&A, 471, p. 17; Baldry, I.K., Glazebrook, K., Brinkmann, J., Ivezić, Z., Lupton, R.H., Nichol, R.C., Szalay, A.S., (2004) ApJ, 600, p. 681; Balogh, M.L., Navarro, J.F., Morris, S.L., (2000) ApJ, 540, p. 113; Barkhouse, W.A., Yee, H.K.C., Lopez-Cruz, O., (2009) ApJ, 703, p. 2024; Berlind, A.A., (2006) ApJS, 167, p. 1; Berrier, J.C., Stewart, K.R., Bullock, J.S., Purcell, C.W., Barton, E.J., Wechsler, R.H., (2009) ApJ, 690, p. 1292; Blanton, M.R., Roweis, S., (2007) AJ, 133, p. 734; Blanton, M.R., (2005) AJ, 129, p. 2562; Butcher, H., Oemler, A., (1984) ApJ, 285, p. 426; De Propris, R., (2004) MNRAS, 351, p. 125; Ellingson, E., Lin, H., Yee, H.K.C., Carlberg, R.G., (2001) ApJ, 547, p. 609; Fairley, B.W., Jones, L.R., Wake, D.A., Collins, C.A., Burke, D.J., Nichol, R.C., Romer, A.K., (2002) MNRAS, 330, p. 755; Finn, R.A., (2005) ApJ, 630, p. 206; Finn, R.A., Balogh, M.L., Zaritsky, D., Miller, C.J., Nichol, R.C., (2008) ApJ, 679, p. 279; Font, A.S., (2008) MNRAS, 389, p. 1619; Gehrels, N., (1986) ApJ, 303, p. 336; Haines, C.P., (2009), preprint; Hansen, S.M., Sheldon, E.S., Wechsler, R.H., Koester, B.P., (2009) ApJ, 699, p. 1333; Kimm, T., (2009) MNRAS, 394, p. 1131; Kodama, T., Bower, R.G., (2001) MNRAS, 321, p. 18; Lacey, C., Cole, S., (1994) MNRAS, 271, p. 676; Li, I.H., Yee, H.K.C., Ellingson, E., (2009) ApJ, 698, p. 83; Lu, T., Gilbank, D.G., Balogh, M.L., Bognat, A., (2009) MNRAS, 399, p. 1858; McGee, S.L., Balogh, M.L., Bower, R.G., Font, A.S., McCarthy, I.G., (2009) MNRAS, 400, p. 937; Margoniner, V.E., de Carvalho, R.R., Gal, R.R., Djorgovski, S.G., (2001) ApJ, 548, pp. L143; Miller, C.M., (2005) AJ, 130, p. 968; Okabe, N., Takada, M., Umetsu, K., Futamase, T., Smith, G.P., (2009) PASJ, , Submitted; Poggianti, B., (2006) ApJ, 642, p. 188; Popesso, P., Böhringer, H., Brinkmann, J., Voges, W., York, D.G., (2004) A&A, 423, p. 449; Popesso, P., Biviano, A., Böhringer, H., Romaniello, M., (2007) A&A, 464, p. 451; Popesso, P., Biviano, A., Romaniello, M., Böhringer, H., (2007) A&A, 461, p. 411; Pozzetti, L., (2009) A&A, , submitted; Reiprich, T.H., Böhringer, H., (2002) ApJ, 567, p. 716; Springel, V., (2005) Nat, 435, p. 629; Strateva, I., (2001) AJ, 122, p. 1861; Wake, D.A., Collins, C.A., Nichol, R.C., Jones, L.R., Burke, D.J., (2005) ApJ, 627, p. 186; Weinmann, S.M., van den Bosch, F.C., Yang, X., Mo, H.J., (2006) MNRAS, 366, p. 2; Wolf, C., Gray, M.E., Meisenheimer, K., (2005) A&A, 443, p. 435; Wolf, C., (2009) MNRAS, 393, p. 1302; Yang, X., Mo, H.J., van den Bosch, F.C., Jing, Y.P., (2005) MNRAS, 356, p. 1293; Yang, X., Mo, H.J., van den Bosch, F.C., Pasquali, A., Li, C., Barden, M., (2007) ApJ, 671, p. 153; York, D.G., (2000) AJ, 120, p. 1579; Zabludoff, A.I., Mulchaey, J.S., (1998) ApJ, 496, p. 39; Zhang, Y., Finoguenov, A., Böhringer, H., Kneib, J., Smith, G.P., Kneissl, R., Okabe, N., Dahle, H., (2008) A&A, 482, p. 451; Zhao, D.H., Mo, H.J., Jing, Y.P., Börner, G., (2003) MNRAS, 339, p. 12

PY - 2010

Y1 - 2010

N2 - We measure the diversity of galaxy groups and clusters with mass M > 1013 h-1 M⊙, in terms of the star formation history of their galaxy populations, for the purpose of constraining the mass scale at which environmentally important processes play a role in galaxy evolution. We consider three different group catalogues, selected in different ways, with photometry and spectroscopy from the Sloan Digital Sky Survey. For each system, we measure the fraction of passively evolving galaxies within R200 and brighter than either Mr = -18 (and with z < 0.05) or Mr = -20 (and z < 0.1). We use the (u - g) and (r - i) galaxy colours to distinguish between star-forming and passively evolving galaxies. By considering the binomial distribution expected from the observed number of members in each cluster, we are able to either recover the intrinsic scatter in this fraction or put robust 95 per cent confidence upper limits on its value. The intrinsic standard deviation in the fraction of passive galaxies is consistent with a small value of ≲0.1 in most mass bins for all three samples. There is no strong trend with mass; even groups with M ~ 1013 h-1 M⊙ are consistent with such a small, intrinsic distribution. We compare these results with theoretical models of the accretion history to show that, if environment plays a role in transforming galaxies, such effects must occur first at mass scales far below that of rich clusters, at most M ~ 1013 M⊙. © 2010 The Authors. Journal compilation © 2009 RAS.

AB - We measure the diversity of galaxy groups and clusters with mass M > 1013 h-1 M⊙, in terms of the star formation history of their galaxy populations, for the purpose of constraining the mass scale at which environmentally important processes play a role in galaxy evolution. We consider three different group catalogues, selected in different ways, with photometry and spectroscopy from the Sloan Digital Sky Survey. For each system, we measure the fraction of passively evolving galaxies within R200 and brighter than either Mr = -18 (and with z < 0.05) or Mr = -20 (and z < 0.1). We use the (u - g) and (r - i) galaxy colours to distinguish between star-forming and passively evolving galaxies. By considering the binomial distribution expected from the observed number of members in each cluster, we are able to either recover the intrinsic scatter in this fraction or put robust 95 per cent confidence upper limits on its value. The intrinsic standard deviation in the fraction of passive galaxies is consistent with a small value of ≲0.1 in most mass bins for all three samples. There is no strong trend with mass; even groups with M ~ 1013 h-1 M⊙ are consistent with such a small, intrinsic distribution. We compare these results with theoretical models of the accretion history to show that, if environment plays a role in transforming galaxies, such effects must occur first at mass scales far below that of rich clusters, at most M ~ 1013 M⊙. © 2010 The Authors. Journal compilation © 2009 RAS.

KW - Galaxies: clusters: general

U2 - 10.1111/j.1745-3933.2009.00800.x

DO - 10.1111/j.1745-3933.2009.00800.x

M3 - Article

SN - 17453933

VL - 402

SP - L59-L63

JO - Monthly Notices of the Royal Astronomical Society: Letters

JF - Monthly Notices of the Royal Astronomical Society: Letters

IS - 1

ER -

Implications of the remarkable homogeneity of galaxy groups and clusters

Abstract

Bibliographical note

Keywords

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