Evidence for the kinematic Sunyaev-Ze\v{l}dovich effect with ACTPol and velocity reconstruction from BOSS

Adam D. Hincks; Alexander van Engelen; Arthur Kosowsky; Benjamin L. Schmitt; Blake D. Sherwin; Brian Koopman; Bruce Partridge; Christine G. Pappas; Dale Li; David N. Spergel

arxiv: 1510.06442 · v1 · pith:I35NRDRFnew · submitted 2015-10-21 · 🌌 astro-ph.CO

Evidence for the kinematic Sunyaev-Zev{l}dovich effect with ACTPol and velocity reconstruction from BOSS

Emmanuel Schaan , Simone Ferraro , Mariana Vargas-Maga\~na , Kendrick M. Smith , Shirley Ho , Simone Aiola , Nicholas Battaglia , J. Richard Bond

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Francesco De Bernardis Erminia Calabrese Hsiao-mei Cho Mark J. Devlin Joanna Dunkley Patricio A. Gallardo Matthew Hasselfield Shawn Henderson J. Colin Hill Adam D. Hincks Ren\'ee Hlozek Johannes Hubmayr John P. Hughes Kent D. Irwin Brian Koopman Arthur Kosowsky Dale Li Thibaut Louis Marius Lungu Mathew Madhavacheril Lo\"ic Maurin Jeffrey John McMahon Kavilan Moodley Sigurd Naess Federico Nati Laura Newburgh Michael D. Niemack Lyman A. Page Christine G. Pappas Bruce Partridge Benjamin L. Schmitt Neelima Sehgal Blake D. Sherwin Jonathan L. Sievers David N. Spergel Suzanne T. Staggs Alexander van Engelen Edward J. Wollack

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keywords velocitydovicheffectgalaxyreconstructionsunyaev-zeactpolkinematic

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We use microwave temperature maps from two seasons of data from the Atacama Cosmology Telescope (ACTPol) at 146 GHz, together with the Constant Mass CMASS galaxy sample from the Baryon Oscillation Spectroscopic Survey to measure the kinematic Sunyaev-Ze\v{l}dovich (kSZ) effect over the redshift range z = 0.4 - 0.7. We use galaxy positions and the continuity equation to obtain a reconstruction of the line-of-sight velocity field. We stack the cosmic microwave background temperature at the location of each halo, weighted by the corresponding reconstructed velocity. The resulting best fit kSZ model is preferred over the no-kSZ hypothesis at 3.3sigma and 2.9sigma for two independent velocity reconstruction methods, using 25,537 galaxies over 660 square degrees. The effect of foregrounds that are uncorrelated with the galaxy velocities is expected to be well below our signal, and residual thermal Sunyaev-Ze\v{l}dovich contamination is controlled by masking the most massive clusters. Finally, we discuss the systematics involved in converting our measurement of the kSZ amplitude into the mean free electron fraction of the halos in our sample.

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