Simulating collisional dark matter using a Lattice Boltzmann method

Usually, dark matter is simulated with N-body schemes that sample the phase space in order to solve the Poisson-Vlasov equation. These kind of simulations have been essential for the development of modern cosmology and the characterization of dark matter halos. With the development of particle physi...

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Autores:
Acevedo Barroso, Javier Alejandro
Tipo de recurso:
Trabajo de grado de pregrado
Fecha de publicación:
2018
Institución:
Universidad de los Andes
Repositorio:
Séneca: repositorio Uniandes
Idioma:
eng
OAI Identifier:
oai:repositorio.uniandes.edu.co:1992/39260
Acceso en línea:
http://hdl.handle.net/1992/39260
Palabra clave:
Materia oscura (Astronomía)
Método de Lattice-Boltzmann
Colisiones (Astrofísica)
Astrofotometría
Física
Rights
openAccess
License
http://creativecommons.org/licenses/by-nc-sa/4.0/
Description
Summary:Usually, dark matter is simulated with N-body schemes that sample the phase space in order to solve the Poisson-Vlasov equation. These kind of simulations have been essential for the development of modern cosmology and the characterization of dark matter halos. With the development of particle physics, we ultimately expect dark matter to be a particle outside of the standard model of physics. Additionally, recent measurements on the aftermath of galaxy cluster collisions allow us to constrain the value of the thermally averaged cross section, thus motivating the development of dark matter collisional simulations. On the other hand, Lattice-Boltzmann simulations have been widely used to recreate increasingly complex fluids and boundary conditions, nonetheless, the usual Lattice-Boltzmann scheme does not simulate the entirety of the velocity space, but simply a small number of adventive velocities. Inspired by the work of Philip Mocz, Sauro Succi, and Sebastian Franco, in which a Lattice-Boltzmann scheme is used to simulate the phase space of a collisionless one dimensional dark matter fluid. We implement a Lattice-Boltzmann simulations of the phase space of a collisional one, two, and three dimensional dark matter fluid. For the collisional step, we use the BGK approximation modeled by a relaxation time chosen accordingly to recent measurements of the cross section.

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