Cosmological structure formation using spectral methods

Funcke, Michelle

Title: Cosmological structure formation using spectral methods
Creator: Funcke, Michelle
ThesisAdvisor: Pollney, Denis
ThesisAdvisor: Larena, Julien
Date: 2016
Type: Thesis
Type: Masters
Type: MSc
Identifier: http://hdl.handle.net/10962/2969
Identifier: vital:20348
Description: Numerical simulations are becoming an increasingly important tool for understanding the growth and development of structure in the universe. Common practice is to discretize the space-time using physical variables. The discreteness is embodied by considering the dynamical variables as fields on a fixed spatial and time resolution, or by constructing the matter fields by a large number of particles which interact gravitationally (N-body methods). Recognizing that the physical quantities of interest are related to the spectrum of perturbations, we propose an alternate discretization in the frequency domain, using standard spectral methods. This approach is further aided by periodic boundary conditions which allows a straightforward decomposition of variables in a Fourier basis. Fixed resources require a high-frequency cut-off which lead to aliasing effects in non-linear equations, such as the ones considered here. This thesis describes the implementation of a 3D cosmological model based on Newtonian hydrodynamic equations in an expanding background. Initial data is constructed as a spectrum of perturbations, and evolved in the frequency domain using a pseudo-spectral evolution scheme and an explicit Runge-Kutta time integrator. The code is found to converge for both linear and non-linear evolutions, and the convergence rate is determined. The correct growth rates expected from analytical calculations are recovered in the linear case. In the non-linear model, we observe close correspondence with linear growth and are able to monitor the growth on features associated with the non-linearity. High-frequency aliasing effects were evident in the non-linear evolutions, leading to a study of two potential resolutions to this problem: a boxcar filter which adheres to“Orszag’s two thirds rule” and an exponential window function, the exponential filter suggested by Hou and Li [1], and a shifted version of the exponential filter suggested, which has the potential to alleviate high frequency- ripples resulting from the Gibbs’ phenomenon. We found that the filters were somewhat successful at reducing aliasing effects but that the Gibbs’ phenomenon could not be entirely removed by the choice of filters.
Format: 137 leaves, pdf
Publisher: Rhodes University, Faculty of Science, Mathematics (Pure and Applied)
Language: English
Rights: Funcke, Michelle

Hits: 838
Visitors: 923
Downloads: 166

Collections

RU Department of Mathematics (Pure and Applied)

		Thumbnail	File	Description	Size	Format
View Details Download			SOURCE1	Adobe Acrobat PDF	4 MB	Adobe Acrobat PDF	View Details Download