Emulation of f(R) modified gravity from using conditional GANs

Abstract

A major aim of cosmological surveys is to test deviations from the standard model, but the full scientific value of these surveys will only be realised through efficient simulation methods that keep up with the increasing volume and precision of observational data. N-body simulations of modified gravity (MG) theories are computationally expensive since highly non-linear equations must be solved. This represents a significant bottleneck in the path to reach the data volume and resolution attained by equivalent simulations. We develop a field-level neural network-based emulator that generates density and velocity divergence fields under the f(R) gravity MG model from the corresponding simulated fields. Using attention mechanisms and a complementary frequency-based loss function, our model is able to learn this intricate mapping. We use the idea of latent space extrapolation to generalise our emulator to f(R) models with differing field strengths. The predictions of our emulator agree with the f(R) simulations to within 5% for matter density and to within 10% for velocity divergence power spectra up to k 2\,h Mpc-1. But for a few select cases, higher-order statistics are reproduced with 10% agreement. Latent extrapolation allows our emulator to generalise to different parameterisations of the f(R) model without explicitly training on those variants. Given a simulation, the GPU-based emulator can reproduce the equivalent f(R) realisation 600 times faster than full N-body simulations. This lays the foundations for a valuable tool for realistic yet rapid mock field generation and robust cosmological analyses.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…