BullFrog: Multi-step perturbation theory as a time integrator for cosmological simulations
Autor: | Rampf, Cornelius, List, Florian, Hahn, Oliver |
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Rok vydání: | 2024 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | Modelling the cosmic large-scale structure can be done through numerical N-body simulations or by using perturbation theory. Here, we present an N-body approach that effectively implements a multi-step forward model based on Lagrangian Perturbation Theory (LPT) in a $\Lambda$CDM Universe. This is achieved by introducing the second-order accurate BullFrog integrator, which performs 2LPT time steps (before shell-crossing) to second order without requiring the explicit computation of 2LPT displacements, while the higher-order terms rapidly approach the exact solution as the number of time steps increases. As a validation test, we compare BullFrog against other N-body integrators and high-order LPT, both for a realistic $\Lambda$CDM cosmology and for simulations with a sharp UV cutoff in the initial conditions. The latter scenario enables controlled experiments against LPT and, in practice, is particularly relevant for modelling coarse-grained fluids arising in the context of effective field theory. We demonstrate that BullFrog significantly improves upon other LPT-inspired integrators, such as FastPM and COLA, without incurring any computational overhead compared to standard N-body integrators. Implementing BullFrog in any existing N-body code is straightforward, particularly if FastPM is already integrated. Comment: 30 pages plus appendices+references, 14 figures, to be submitted to JCAP |
Databáze: | arXiv |
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