The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field

J. Coupon; S. Arnouts; L. van Waerbeke; T. Moutard; O. Ilbert; E. van Uitert; T. Erben; B. Garilli; L. Guzzo; C. Heymans; H. Hildebrandt; H. Hoekstra; M. Kilbinger; T. Kitching; Y. Mellier; L. Miller; M. Scodeggio; C. Bonnett; E. Branchini; I. Davidzon; G. De Lucia; A. Fritz; L. Fu; P. Hudelot; M. J. Hudson; K. Kuijken; A. Leauthaud; O. Le Fèvre; H. J. McCracken; L. Moscardini; B. T.P. Rowe; T. Schrabback; E. Semboloni; M. Velander

doi:10.1093/mnras/stv276

The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field

J. Coupon, S. Arnouts, L. van Waerbeke, T. Moutard, O. Ilbert, E. van Uitert, T. Erben, B. Garilli, L. Guzzo, C. Heymans, H. Hildebrandt, H. Hoekstra, M. Kilbinger, T. Kitching, Y. Mellier, L. Miller, M. Scodeggio, C. Bonnett, E. Branchini, I. DavidzonG. De Lucia, A. Fritz, L. Fu, P. Hudelot, M. J. Hudson, K. Kuijken, A. Leauthaud, O. Le Fèvre, H. J. McCracken, L. Moscardini, B. T.P. Rowe, T. Schrabback, E. Semboloni, M. Velander

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© 2015 The Authors. We present new constraints on the relationship between galaxies and their host dark matter haloes, measured from the location of the peak of the stellar-to-halo mass ratio (SHMR), up to the most massive galaxy clusters at redshift z ~ 0.8 and over a volume of nearly 0.1 Gpc 3 .We use a unique combination of deep observations in the CFHTLenS/VIPERS field from the near-UV to the near-IR, supplemented by ~60 000 secure spectroscopic redshifts, analysing galaxy clustering, galaxy-galaxy lensing and the stellar mass function.We interpret our measurements within the halo occupation distribution (HOD) framework, separating the contributions from central and satellite galaxies.We find that the SHMRfor the central galaxies peaks atM h,peak = 1.9 -0.1+0.2 × 10 12 M ⊙ with an amplitude of 0.025, which decreases to ~0.001 for massive haloes (Mh > 10 14 M ⊙ ). Compared to central galaxies only, the total SHMR (including satellites) is boosted by a factor of 10 in the high-mass regime (cluster-size haloes), a result consistent with cluster analyses from the literature based on fully independent methods. After properly accounting for differences in modelling, we have compared our results with a large number of results from the literature up to z = 1: we find good general agreement, independently of the method used, within the typical stellar-mass systematic errors at low to intermediate mass (M* < 10 11 M ⊙ ) and the statistical errors above. We have also compared our SHMR results to semi-analytic simulations and found that the SHMR is tilted compared to our measurements in such a way that they over- (under-) predict star formation efficiency in central (satellite) galaxies.

Idioma original	Anglès
Pàgines (de-a)	1352-1379
Revista	Monthly Notices of the Royal Astronomical Society
Volum	449
Número	2
DOIs	https://doi.org/10.1093/mnras/stv276
Estat de la publicació	Publicada - 1 de gen. 2015

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10.1093/mnras/stv276

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Coupon, J., Arnouts, S., van Waerbeke, L., Moutard, T., Ilbert, O., van Uitert, E., Erben, T., Garilli, B., Guzzo, L., Heymans, C., Hildebrandt, H., Hoekstra, H., Kilbinger, M., Kitching, T., Mellier, Y., Miller, L., Scodeggio, M., Bonnett, C., Branchini, E., ... Velander, M. (2015). The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field. Monthly Notices of the Royal Astronomical Society, 449(2), 1352-1379. https://doi.org/10.1093/mnras/stv276

@article{090e3c6d9efc4f0db7b5c5f9d10c30c4,

title = "The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field",

abstract = "{\textcopyright} 2015 The Authors. We present new constraints on the relationship between galaxies and their host dark matter haloes, measured from the location of the peak of the stellar-to-halo mass ratio (SHMR), up to the most massive galaxy clusters at redshift z \textasciitilde{} 0.8 and over a volume of nearly 0.1 Gpc 3 .We use a unique combination of deep observations in the CFHTLenS/VIPERS field from the near-UV to the near-IR, supplemented by \textasciitilde{}60 000 secure spectroscopic redshifts, analysing galaxy clustering, galaxy-galaxy lensing and the stellar mass function.We interpret our measurements within the halo occupation distribution (HOD) framework, separating the contributions from central and satellite galaxies.We find that the SHMRfor the central galaxies peaks atM h,peak = 1.9 -0.1+0.2 × 10 12 M ⊙ with an amplitude of 0.025, which decreases to \textasciitilde{}0.001 for massive haloes (Mh > 10 14 M ⊙ ). Compared to central galaxies only, the total SHMR (including satellites) is boosted by a factor of 10 in the high-mass regime (cluster-size haloes), a result consistent with cluster analyses from the literature based on fully independent methods. After properly accounting for differences in modelling, we have compared our results with a large number of results from the literature up to z = 1: we find good general agreement, independently of the method used, within the typical stellar-mass systematic errors at low to intermediate mass (M* < 10 11 M ⊙ ) and the statistical errors above. We have also compared our SHMR results to semi-analytic simulations and found that the SHMR is tilted compared to our measurements in such a way that they over- (under-) predict star formation efficiency in central (satellite) galaxies.",

keywords = "Cosmology: observations, Dark matter, Galaxies: clusters: general, Gravitational lensing: weak",

author = "J. Coupon and S. Arnouts and \{van Waerbeke\}, L. and T. Moutard and O. Ilbert and \{van Uitert\}, E. and T. Erben and B. Garilli and L. Guzzo and C. Heymans and H. Hildebrandt and H. Hoekstra and M. Kilbinger and T. Kitching and Y. Mellier and L. Miller and M. Scodeggio and C. Bonnett and E. Branchini and I. Davidzon and \{De Lucia\}, G. and A. Fritz and L. Fu and P. Hudelot and Hudson, \{M. J.\} and K. Kuijken and A. Leauthaud and \{Le F{\`e}vre\}, O. and McCracken, \{H. J.\} and L. Moscardini and Rowe, \{B. T.P.\} and T. Schrabback and E. Semboloni and M. Velander",

year = "2015",

month = jan,

day = "1",

doi = "10.1093/mnras/stv276",

language = "English",

volume = "449",

pages = "1352--1379",

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

issn = "0035-8711",

number = "2",

}

Coupon, J, Arnouts, S, van Waerbeke, L, Moutard, T, Ilbert, O, van Uitert, E, Erben, T, Garilli, B, Guzzo, L, Heymans, C, Hildebrandt, H, Hoekstra, H, Kilbinger, M, Kitching, T, Mellier, Y, Miller, L, Scodeggio, M, Bonnett, C, Branchini, E, Davidzon, I, De Lucia, G, Fritz, A, Fu, L, Hudelot, P, Hudson, MJ, Kuijken, K, Leauthaud, A, Le Fèvre, O, McCracken, HJ, Moscardini, L, Rowe, BTP, Schrabback, T, Semboloni, E & Velander, M 2015, 'The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field', Monthly Notices of the Royal Astronomical Society, vol. 449, núm. 2, pàg. 1352-1379. https://doi.org/10.1093/mnras/stv276

TY - JOUR

T1 - The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field

AU - Coupon, J.

AU - Arnouts, S.

AU - van Waerbeke, L.

AU - Moutard, T.

AU - Ilbert, O.

AU - van Uitert, E.

AU - Erben, T.

AU - Garilli, B.

AU - Guzzo, L.

AU - Heymans, C.

AU - Hildebrandt, H.

AU - Hoekstra, H.

AU - Kilbinger, M.

AU - Kitching, T.

AU - Mellier, Y.

AU - Miller, L.

AU - Scodeggio, M.

AU - Bonnett, C.

AU - Branchini, E.

AU - Davidzon, I.

AU - De Lucia, G.

AU - Fritz, A.

AU - Fu, L.

AU - Hudelot, P.

AU - Hudson, M. J.

AU - Kuijken, K.

AU - Leauthaud, A.

AU - Le Fèvre, O.

AU - McCracken, H. J.

AU - Moscardini, L.

AU - Rowe, B. T.P.

AU - Schrabback, T.

AU - Semboloni, E.

AU - Velander, M.

PY - 2015/1/1

Y1 - 2015/1/1

N2 - © 2015 The Authors. We present new constraints on the relationship between galaxies and their host dark matter haloes, measured from the location of the peak of the stellar-to-halo mass ratio (SHMR), up to the most massive galaxy clusters at redshift z ~ 0.8 and over a volume of nearly 0.1 Gpc 3 .We use a unique combination of deep observations in the CFHTLenS/VIPERS field from the near-UV to the near-IR, supplemented by ~60 000 secure spectroscopic redshifts, analysing galaxy clustering, galaxy-galaxy lensing and the stellar mass function.We interpret our measurements within the halo occupation distribution (HOD) framework, separating the contributions from central and satellite galaxies.We find that the SHMRfor the central galaxies peaks atM h,peak = 1.9 -0.1+0.2 × 10 12 M ⊙ with an amplitude of 0.025, which decreases to ~0.001 for massive haloes (Mh > 10 14 M ⊙ ). Compared to central galaxies only, the total SHMR (including satellites) is boosted by a factor of 10 in the high-mass regime (cluster-size haloes), a result consistent with cluster analyses from the literature based on fully independent methods. After properly accounting for differences in modelling, we have compared our results with a large number of results from the literature up to z = 1: we find good general agreement, independently of the method used, within the typical stellar-mass systematic errors at low to intermediate mass (M* < 10 11 M ⊙ ) and the statistical errors above. We have also compared our SHMR results to semi-analytic simulations and found that the SHMR is tilted compared to our measurements in such a way that they over- (under-) predict star formation efficiency in central (satellite) galaxies.

AB - © 2015 The Authors. We present new constraints on the relationship between galaxies and their host dark matter haloes, measured from the location of the peak of the stellar-to-halo mass ratio (SHMR), up to the most massive galaxy clusters at redshift z ~ 0.8 and over a volume of nearly 0.1 Gpc 3 .We use a unique combination of deep observations in the CFHTLenS/VIPERS field from the near-UV to the near-IR, supplemented by ~60 000 secure spectroscopic redshifts, analysing galaxy clustering, galaxy-galaxy lensing and the stellar mass function.We interpret our measurements within the halo occupation distribution (HOD) framework, separating the contributions from central and satellite galaxies.We find that the SHMRfor the central galaxies peaks atM h,peak = 1.9 -0.1+0.2 × 10 12 M ⊙ with an amplitude of 0.025, which decreases to ~0.001 for massive haloes (Mh > 10 14 M ⊙ ). Compared to central galaxies only, the total SHMR (including satellites) is boosted by a factor of 10 in the high-mass regime (cluster-size haloes), a result consistent with cluster analyses from the literature based on fully independent methods. After properly accounting for differences in modelling, we have compared our results with a large number of results from the literature up to z = 1: we find good general agreement, independently of the method used, within the typical stellar-mass systematic errors at low to intermediate mass (M* < 10 11 M ⊙ ) and the statistical errors above. We have also compared our SHMR results to semi-analytic simulations and found that the SHMR is tilted compared to our measurements in such a way that they over- (under-) predict star formation efficiency in central (satellite) galaxies.

KW - Cosmology: observations

KW - Dark matter

KW - Galaxies: clusters: general

KW - Gravitational lensing: weak

UR - https://www.scopus.com/pages/publications/84930651778

U2 - 10.1093/mnras/stv276

DO - 10.1093/mnras/stv276

M3 - Article

SN - 0035-8711

VL - 449

SP - 1352

EP - 1379

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

The galaxy-halo connection from a joint lensing, clustering and abundance analysis in the CFHTLenS/VIPERS field

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