Constraints on primordial non-Gaussianity from Galaxy-CMB lensing cross-correlation

Abstract

Recent studies have shown that the primordial non-Gaussianity affects clustering of dark matter halos through a scale-dependent bias and various constraints on the non-Gaussianity through this scale-dependent bias have been placed. Here we introduce the cross-correlation between the CMB lensing potential and the galaxy angular distribution to effectively extract information about the bias from the galaxy distribution. Then, we estimate the error of non-linear parameter, fNL, for the on-going CMB experiments and galaxy surveys, such as Planck and Hyper Suprime-Cam (HSC). We found that for the constraint on fNL with Planck and HSC, the wide field galaxy survey is preferable to the deep one, and the expected error on fNL can be as small as: fNL ~ 20 for b0 = 2 and fNL ~ 10 for b0 = 4, where b0 is the linear bias parameter. It is also found that future wide field galaxy survey could achieve fNL ~ 5 with CMB prior from Planck if one could observe highly biased objects at higher redshift (z ~ 2).