Abstract We present a field-level reaction framework to emulate the nonlinear effects of screened modified gravity on the cosmic web. This approach is designed to enable field-level inference with data from Stage IV cosmological surveys. Building on the reaction method, which models the nonlinear matter power spectrum in modified gravity as corrections to a “pseudo” ΛCDM cosmology, we extend the method to full field-level predictions by applying it to the output of N-body simulations, including both positions and velocities. We focus on modifications to gravity that are scale-independent at the linear level, allowing us to isolate and emulate nonlinear deviations, particularly screening effects. Our neural network predicts the field-level correction (“reaction”) to a pseudoΛCDM simulation whose linear clustering matches that of the target. The emulator achieves sub-percent accuracy across a broad range of summary statistics, including 0.4 % agreement in the matter power spectrum at scales k 1 Mpc/h, and 2 % accuracy in redshift-space distortion multipoles at k 0.3 Mpc/h. We also validate the emulator against N-body simulations with increased force resolution and time steps, confirming the robustness of its performance. These results demonstrate that our framework is a practical and reliable tool for incorporating screened modified gravity models into field-level cosmological inference, enabling stringent tests of extra fundamental forces at cosmological scales.
Saadeh et al. (Mon,) studied this question.
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