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Modeling intrinsic galaxy alignment in the MICE simulation

Kai HoffmannInstitute for Computational Science, University of Zurich, Winterthurerstr. 190, 8057 Zürich, SwitzerlandLucas F. SeccoKavli Institute for Cosmological Physics, University of Chicago, Chicago, Illinois 60637, USAJ. BlazekDepartment of Physics, Northeastern University, Boston, Massachusetts 02115, USAM. CrocceInstitut d’Estudis Espacials de Catalunya (IEEC), 08034 Barcelona, SpainP. Tallada-CrespíCentro de Investigaciones Energéticas, Medioambientales y Tecnológicas (CIEMAT), Avenida Complutense 40, 28040 Madrid, SpainS. SamuroffDepartment of Physics, Northeastern University, Boston, Massachusetts 02115, USAJ. PratDepartment of Astronomy and Astrophysics, University of Chicago, Chicago, Illinois 60637, USAJ. CarreteroInstitut de Física d’Altes Energies (IFAE), The Barcelona Institute of Science and Technology, Campus UAB, 08193 Barcelona, SpainP. FosalbaInstitut d’Estudis Espacials de Catalunya (IEEC), 08034 Barcelona, SpainE. GaztañagaInstitut d’Estudis Espacials de Catalunya (IEEC), 08034 Barcelona, SpainF. J. CastanderInstitut d’Estudis Espacials de Catalunya (IEEC), 08034 Barcelona, Spain
2022en
ABI

Annotatsiya

The intrinsic alignment (IA) of galaxies is potentially a major limitation in deriving cosmological constraints from weak lensing surveys. In order to investigate this effect, we assign intrinsic shapes and orientations to galaxies in the light-cone output of the MICE simulation, spanning $\ensuremath{\sim}5000\text{ }\text{ }{\mathrm{deg}}^{2}$ and reaching redshift $z=1.4$. This assignment is based on a semianalytic IA model that uses photometric properties of galaxies as well as the spin and shape of their host halos. Advancing on previous work, we include more realistic distributions of galaxy shapes and a luminosity-dependent galaxy-halo alignment. The IA model parameters are calibrated against COSMOS and BOSS LOWZ observations. The null detection of IA in observations of blue galaxies is accounted for by setting random orientations for these objects. We compare the two-point alignment statistics measured in the simulation against predictions from the analytical IA models NLA and TATT over a wide range of scales, redshifts, and luminosities for red and blue galaxies separately. We find that both models fit the measurements well at scales above $8\text{ }{h}^{\ensuremath{-}1}\text{ }\text{ }\mathrm{Mpc}$, while TATT outperforms NLA at smaller scales. The IA parameters derived from our fits are in broad agreement with various observational constraints from red galaxies. Lastly, we build a realistic source sample, mimicking DES Year 3 observations and use it to predict the IA contamination to the observed shear statistics. We find this prediction to be within the measurement uncertainty, which might be a consequence of the random alignment of blue galaxies in the simulation.

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