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One-dimensional fuzzy dark matter models: Structure growth and asymptotic dynamics

Tim Zimmermann, Nico Schwersenz, Massimo Pietroni, Sandro Wimberger

2021Physical review. D/Physical review. D.10 citationsDOIOpen Access PDF

Abstract

This paper investigates the feasibility of simulating fuzzy dark matter (FDM) with a reduced number of spatial dimensions. Our aim is to set up a realistic, yet numerically inexpensive, toy model in ($1+1$)-dimensional space time, that---under well controlled system conditions---is capable of realizing important aspects of the full-fledged ($3+1$)-FDM phenomenology by means of one-dimensional analogues. Based on the coupled, nonlinear and nonlocal ($3+1$)-Schr\"odinger-Poisson equation under periodic boundary conditions, we derive two distinct one-dimensional models that differ in their transversal matter distribution and consequently in their nonlocal interaction along the single dimension of interest. We show that these discrepancies change the relaxation process of initial states as well as the asymptotic, i.e., thermalized and virialized, equilibrium state. Our investigation includes the dynamical evolution of artificial initial conditions for nonexpanding space, as well as cosmological initial conditions in expanding space. The findings of this work are relevant for the interpretation of numerical simulation data modeling nonrelativistic fuzzy cold dark matter in reduced dimensions, in the quest for testing such models and for possible laboratory implementations of them.

Topics & Concepts

PhysicsPhenomenology (philosophy)Statistical physicsNonlinear systemBoundary value problemDark matterTime evolutionClassical mechanicsQuantum mechanicsEpistemologyPhilosophyParticle physicsCosmology and Gravitation TheoriesCold Atom Physics and Bose-Einstein CondensatesDark Matter and Cosmic Phenomena
One-dimensional fuzzy dark matter models: Structure growth and asymptotic dynamics | Litcius