Author:
Kogai Kazuhiro,Akitsu Kazuyuki,Schmidt Fabian,Urakawa Yuko
Abstract
Abstract
Galaxy imaging surveys provide us with information on both
the galaxy distribution and their shapes. In this paper, we
systematically investigate the sensitivity of galaxy shapes to new
physics in the initial conditions. For this purpose, we decompose
the galaxy shape function into spin components, and compute the
contributions to each spin component from both intrinsic alignment
and weak lensing. We then consider the angular-dependent primordial
non-Gaussianity, which is generated by a non-zero integer spin
particle when active during inflation, and show that a galaxy
imaging survey essentially functions as a spin-sensitive detector of
such particles in the early universe. We also perform a forecast of
the PNG generated from a higher spin particle, considering a Rubin
Observatory LSST-like galaxy survey.
Subject
Astronomy and Astrophysics
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