Vincent B. Klaer scite author profile

Abstract:We evaluate the efficiency of axion production from spatially random initial conditions in the axion field, so a network of axionic strings is present. For the first time, we perform numerical simulations which fully account for the large short-distance contributions to the axionic string tension, and the resulting dense network of high-tension axionic strings. We find nevertheless that the total axion production is somewhat less efficient than in the angle-averaged misalignment case. Combining our results with a recent determination of the hot QCD topological susceptibility [1], we find that if the axion makes up all of the dark matter, then the axion mass is m a = 26.2 ± 3.4 µeV.

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How to simulate global cosmic strings with large string tension

Klaer

Moore

2017

J. Cosmol. Astropart. Phys.

109

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Global string networks may be relevant in axion production in the early Universe, as well as other cosmological scenarios. Such networks contain a large hierarchy of scales between the string core scale and the Hubble scale, ln(f a /H) ∼ 70, which influences the network dynamics by giving the strings large tensions T πf 2 a ln(f a /H). We present a new numerical approach to simulate such global string networks, capturing the tension without an exponentially large lattice.

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Global cosmic string networks as a function of tension

Klaer

2020

J. Cosmol. Astropart. Phys.

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We investigate the properties of global cosmic string networks as a function of the ratio of string tension to Goldstone-field coupling, and as a function of the Hubble damping strength. Our results show unambiguously that the string density is sensitive to this ratio. We also find that existing semi-analytical (one-scale) models must be missing some important aspect of the network dynamics. Our results point the way towards improving such models.

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Vincent B. Klaer

The dark-matter axion mass

How to simulate global cosmic strings with large string tension

Global cosmic string networks as a function of tension

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