Local primordial non-Gaussianity using cross-correlations of DESI tracers

Abstract

We constrain local primordial non-Gaussianity by a combined analysis of auto and cross-correlations of DESI DR1 tracers, leveraging LRGs and QSOs as well as ELGs between 0.8<z<3.1. By cross-validating the signal across different clustering tracers within the same redshift range, we evaluate potential systematics in the flocNL measurements, capitalizing on the reduced susceptibility of cross-correlations to non-common systematics. We find that the cross-correlation between LRG and quasars can robustly improve the DESI DR1 flocNL constraints, by 9\% to a measurement of flocNL=2.1-8.3+8.8 at 68\% confidence. On the other hand, we do not find a clear improvement when including the DESI DR1 ELG sample. Mock tests predict an additional 8\% gain with statistical scatter, and the lack of improvement in the data remains consistent with this expectation. This project serves as an exploratory analysis of DESI ELG clustering for flocNL through its cross-correlation in preparation for future DESI data analyses.