Cosmological Structure Formation and Soliton Phase Transition in Fuzzy Dark Matter with Axion Self-Interactions

Authors :: Mocz, Philip
Fialkov, Anastasia
Vogelsberger, Mark
Boylan-Kolchin, Michael
Chavanis, Pierre-Henri
Amin, Mustafa A.
Bose, Sownak
Dome, Tibor
Hernquist, Lars
Lancaster, Lachlan
Notis, Matthew
Painter, Connor
Robles, Victor H.
Zavala, Jesus
Mocz, Philip
Fialkov, Anastasia
Vogelsberger, Mark
Boylan-Kolchin, Michael
Chavanis, Pierre-Henri
Amin, Mustafa A.
Bose, Sownak
Dome, Tibor
Hernquist, Lars
Lancaster, Lachlan
Notis, Matthew
Painter, Connor
Robles, Victor H.
Zavala, Jesus
Publication Year :: 2023
Abstract: We investigate cosmological structure formation in Fuzzy Dark Matter (FDM) with an attractive self-interaction (SI) with numerical simulations. Such a SI would arise if the FDM boson were an ultra-light axion, which has a strong CP symmetry-breaking scale (decay constant). Although weak, the attractive SI may be strong enough to counteract the quantum 'pressure' and alter structure formation. We find in our simulations that the SI can enhance small-scale structure formation, and soliton cores above a critical mass undergo a phase transition, transforming from dilute to dense solitons.<br />Comment: 10 pages, 3 figures, submitted to mnras

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