Cosmic CARNage I: On the calibration of galaxy formation models

Alexander Knebe; Frazer R. Pearce; Violeta Gonzalez-Perez; Peter A. Thomas; Andrew Benson; Rachel Asquith; Jeremy Blaizot; Richard Bower; Jorge Carretero; Francisco J. Castander; Andrea Cattaneo; Sofía A. Cora; Darren J. Croton; Weiguang Cui; Daniel Cunnama; Julien E. Devriendt; Pascal J. Elahi; Andreea Font; Fabio Fontanot; Ignacio D. Gargiulo; John Helly; Bruno Henriques; Jaehyun Lee; Gary A. Mamon; Julian Onions; Nelson D. Padilla; Chris Power; Arnau Pujol; Andrés N. Ruiz; Chaichalit Srisawat; Adam R.H. Stevens; Edouard Tollet; Cristian A. Vega-Martínez; Sukyoung K. Yi

doi:10.1093/mnras/stx3274

Cosmic CARNage I: On the calibration of galaxy formation models

Alexander Knebe
, Frazer R. Pearce
, Violeta Gonzalez-Perez
, Peter A. Thomas
, Andrew Benson
, Rachel Asquith
, Jeremy Blaizot
, Richard Bower
, Jorge Carretero
, Francisco J. Castander
, Andrea Cattaneo
, Sofía A. Cora
, Darren J. Croton
, Weiguang Cui
, Daniel Cunnama
, Julien E. Devriendt
, Pascal J. Elahi
, Andreea Font
, Fabio Fontanot
, Ignacio D. Gargiulo

John Helly, Bruno Henriques, Jaehyun Lee, Gary A. Mamon, Julian Onions, Nelson D. Padilla, Chris Power, Arnau Pujol, Andrés N. Ruiz, Chaichalit Srisawat, Adam R.H. Stevens, Edouard Tollet, Cristian A. Vega-Martínez, Sukyoung K. Yi

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

26 Citas (Scopus)

Resumen

We present a comparison of nine galaxy formation models, eight semi-analytical, and one halo occupation distribution model, run on the same underlying cold dark matter simulation (cosmological box of comoving width 125h-1 Mpc, with a dark-matter particle mass of 1.24 × 109h-1M⊙) and the same merger trees. While their free parameters have been calibrated to the same observational data sets using two approaches, they nevertheless retain some 'memory' of any previous calibration that served as the starting point (especially for the manually tuned models). For the first calibration, models reproduce the observed z = 0 galaxy stellar mass function (SMF) within 3σ. The second calibration extended the observational data to include the z = 2 SMF alongside the z ∼ 0 star formation rate function, cold gas mass, and the black hole-bulge mass relation. Encapsulating the observed evolution of the SMF from z = 2 to 0 is found to be very hard within the context of the physics currently included in the models. We finally use our calibrated models to study the evolution of the stellar-to-halo mass (SHM) ratio. For all models, we find that the peak value of the SHM relation decreases with redshift. However, the trends seen for the evolution of the peak position as well as the mean scatter in the SHM relation are rather weak and strongly model dependent. Both the calibration data sets and model results are publicly available.

Idioma original	Inglés
Páginas (desde-hasta)	2936-2954
Número de páginas	19
Publicación	Monthly Notices of the Royal Astronomical Society
Volumen	475
N.º	3
DOI	https://doi.org/10.1093/mnras/stx3274
Estado	Publicada - abr. 2018
Publicado de forma externa	Sí

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Knebe, A., Pearce, F. R., Gonzalez-Perez, V., Thomas, P. A., Benson, A., Asquith, R., Blaizot, J., Bower, R., Carretero, J., Castander, F. J., Cattaneo, A., Cora, S. A., Croton, D. J., Cui, W., Cunnama, D., Devriendt, J. E., Elahi, P. J., Font, A., Fontanot, F., ... Yi, S. K. (2018). Cosmic CARNage I: On the calibration of galaxy formation models. Monthly Notices of the Royal Astronomical Society, 475(3), 2936-2954. https://doi.org/10.1093/mnras/stx3274

@article{61e068993eea45028de21d30048d9b05,

title = "Cosmic CARNage I: On the calibration of galaxy formation models",

abstract = "We present a comparison of nine galaxy formation models, eight semi-analytical, and one halo occupation distribution model, run on the same underlying cold dark matter simulation (cosmological box of comoving width 125h-1 Mpc, with a dark-matter particle mass of 1.24 × 109h-1M⊙) and the same merger trees. While their free parameters have been calibrated to the same observational data sets using two approaches, they nevertheless retain some 'memory' of any previous calibration that served as the starting point (especially for the manually tuned models). For the first calibration, models reproduce the observed z = 0 galaxy stellar mass function (SMF) within 3σ. The second calibration extended the observational data to include the z = 2 SMF alongside the z ∼ 0 star formation rate function, cold gas mass, and the black hole-bulge mass relation. Encapsulating the observed evolution of the SMF from z = 2 to 0 is found to be very hard within the context of the physics currently included in the models. We finally use our calibrated models to study the evolution of the stellar-to-halo mass (SHM) ratio. For all models, we find that the peak value of the SHM relation decreases with redshift. However, the trends seen for the evolution of the peak position as well as the mean scatter in the SHM relation are rather weak and strongly model dependent. Both the calibration data sets and model results are publicly available.",

keywords = "Cosmology: Theory, Dark matter, Galaxies: Evolution, Galaxies: Haloes, Methods: Analytical, Methods: numerical",

author = "Alexander Knebe and Pearce, \{Frazer R.\} and Violeta Gonzalez-Perez and Thomas, \{Peter A.\} and Andrew Benson and Rachel Asquith and Jeremy Blaizot and Richard Bower and Jorge Carretero and Castander, \{Francisco J.\} and Andrea Cattaneo and Cora, \{Sof{\'i}a A.\} and Croton, \{Darren J.\} and Weiguang Cui and Daniel Cunnama and Devriendt, \{Julien E.\} and Elahi, \{Pascal J.\} and Andreea Font and Fabio Fontanot and Gargiulo, \{Ignacio D.\} and John Helly and Bruno Henriques and Jaehyun Lee and Mamon, \{Gary A.\} and Julian Onions and Padilla, \{Nelson D.\} and Chris Power and Arnau Pujol and Ruiz, \{Andr{\'e}s N.\} and Chaichalit Srisawat and Stevens, \{Adam R.H.\} and Edouard Tollet and Vega-Mart{\'i}nez, \{Cristian A.\} and Yi, \{Sukyoung K.\}",

note = "Publisher Copyright: {\textcopyright} 2017 The Author(s).",

year = "2018",

month = apr,

doi = "10.1093/mnras/stx3274",

language = "English",

volume = "475",

pages = "2936--2954",

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

issn = "0035-8711",

number = "3",

}

Knebe, A, Pearce, FR, Gonzalez-Perez, V, Thomas, PA, Benson, A, Asquith, R, Blaizot, J, Bower, R, Carretero, J, Castander, FJ, Cattaneo, A, Cora, SA, Croton, DJ, Cui, W, Cunnama, D, Devriendt, JE, Elahi, PJ, Font, A, Fontanot, F, Gargiulo, ID, Helly, J, Henriques, B, Lee, J, Mamon, GA, Onions, J, Padilla, ND, Power, C, Pujol, A, Ruiz, AN, Srisawat, C, Stevens, ARH, Tollet, E, Vega-Martínez, CA & Yi, SK 2018, 'Cosmic CARNage I: On the calibration of galaxy formation models', Monthly Notices of the Royal Astronomical Society, vol. 475, n.º 3, pp. 2936-2954. https://doi.org/10.1093/mnras/stx3274

TY - JOUR

T1 - Cosmic CARNage I

T2 - On the calibration of galaxy formation models

AU - Knebe, Alexander

AU - Pearce, Frazer R.

AU - Gonzalez-Perez, Violeta

AU - Thomas, Peter A.

AU - Benson, Andrew

AU - Asquith, Rachel

AU - Blaizot, Jeremy

AU - Bower, Richard

AU - Carretero, Jorge

AU - Castander, Francisco J.

AU - Cattaneo, Andrea

AU - Cora, Sofía A.

AU - Croton, Darren J.

AU - Cui, Weiguang

AU - Cunnama, Daniel

AU - Devriendt, Julien E.

AU - Elahi, Pascal J.

AU - Font, Andreea

AU - Fontanot, Fabio

AU - Gargiulo, Ignacio D.

AU - Helly, John

AU - Henriques, Bruno

AU - Lee, Jaehyun

AU - Mamon, Gary A.

AU - Onions, Julian

AU - Padilla, Nelson D.

AU - Power, Chris

AU - Pujol, Arnau

AU - Ruiz, Andrés N.

AU - Srisawat, Chaichalit

AU - Stevens, Adam R.H.

AU - Tollet, Edouard

AU - Vega-Martínez, Cristian A.

AU - Yi, Sukyoung K.

PY - 2018/4

Y1 - 2018/4

N2 - We present a comparison of nine galaxy formation models, eight semi-analytical, and one halo occupation distribution model, run on the same underlying cold dark matter simulation (cosmological box of comoving width 125h-1 Mpc, with a dark-matter particle mass of 1.24 × 109h-1M⊙) and the same merger trees. While their free parameters have been calibrated to the same observational data sets using two approaches, they nevertheless retain some 'memory' of any previous calibration that served as the starting point (especially for the manually tuned models). For the first calibration, models reproduce the observed z = 0 galaxy stellar mass function (SMF) within 3σ. The second calibration extended the observational data to include the z = 2 SMF alongside the z ∼ 0 star formation rate function, cold gas mass, and the black hole-bulge mass relation. Encapsulating the observed evolution of the SMF from z = 2 to 0 is found to be very hard within the context of the physics currently included in the models. We finally use our calibrated models to study the evolution of the stellar-to-halo mass (SHM) ratio. For all models, we find that the peak value of the SHM relation decreases with redshift. However, the trends seen for the evolution of the peak position as well as the mean scatter in the SHM relation are rather weak and strongly model dependent. Both the calibration data sets and model results are publicly available.

AB - We present a comparison of nine galaxy formation models, eight semi-analytical, and one halo occupation distribution model, run on the same underlying cold dark matter simulation (cosmological box of comoving width 125h-1 Mpc, with a dark-matter particle mass of 1.24 × 109h-1M⊙) and the same merger trees. While their free parameters have been calibrated to the same observational data sets using two approaches, they nevertheless retain some 'memory' of any previous calibration that served as the starting point (especially for the manually tuned models). For the first calibration, models reproduce the observed z = 0 galaxy stellar mass function (SMF) within 3σ. The second calibration extended the observational data to include the z = 2 SMF alongside the z ∼ 0 star formation rate function, cold gas mass, and the black hole-bulge mass relation. Encapsulating the observed evolution of the SMF from z = 2 to 0 is found to be very hard within the context of the physics currently included in the models. We finally use our calibrated models to study the evolution of the stellar-to-halo mass (SHM) ratio. For all models, we find that the peak value of the SHM relation decreases with redshift. However, the trends seen for the evolution of the peak position as well as the mean scatter in the SHM relation are rather weak and strongly model dependent. Both the calibration data sets and model results are publicly available.

KW - Cosmology: Theory

KW - Dark matter

KW - Galaxies: Evolution

KW - Galaxies: Haloes

KW - Methods: Analytical

KW - Methods: numerical

UR - https://www.scopus.com/pages/publications/85051493904

U2 - 10.1093/mnras/stx3274

DO - 10.1093/mnras/stx3274

M3 - Article

AN - SCOPUS:85051493904

SN - 0035-8711

VL - 475

SP - 2936

EP - 2954

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 3

ER -

Cosmic CARNage I: On the calibration of galaxy formation models

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