Cross-bispectra constraints on modified gravity theories from the Nancy Grace Roman Space Telescope and the Rubin Observatory Legacy Survey of Space and Time

Abstract

One major goal of upcoming large-scale-structure surveys is to constrain dark energy and modified gravity theories. In particular, galaxy clustering and gravitational lensing convergence are probes sensitive to modifications of general relativity. While the standard analysis for these surveys typically includes power spectra or 2-point correlation functions, it is known that the bispectrum contains additional information that could offer improved constraints on parameters when combined with the power spectra. However, the use of bispectra has been limited so far to one single probe, e.g., the lensing convergence bispectrum or the galaxy bispectrum. In this paper, we extend the formalism to explore the power of cross-bispectra between different probes, and exploit their ability to break parameter degeneracies and improve constraints. We study this on a test case of lensing convergence and galaxy density auto- and cross-bispectra, for a particular subclass of Horndeski theories parametrized by the running of the Planck mass c_M and the braiding parameter c_B. Using the 2000  deg² notional survey of the Nancy Grace Roman Space Telescope with overlapping photometry from the Rubin Observatory Legacy Survey of Space and Time, we find that a joint power spectra and bispectra analysis with three redshift bins at l_(max) = 1000 yields σ_(cM) = 1.0 and σ_(cB) = 0.3, both a factor of ∼1.2 better than the power spectra results; this would be further improved to σ_(cM) = 0.7 and σ_(cB) = 0.2 if l_(max) = 3000 is taken. Furthermore, we find that using all possible cross-bispectra between the two probes in different tomographic bins improves upon auto-bispectra results by a factor of 1.3 in σ_(cM), 1.1 in σ_(cB), and 1.3 in σ_(Ωm). We expect that similar benefits of using cross-bispectra between probes could apply to other science cases and surveys.

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