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1. Dark dimension gravitons as dark matter

   https://doi.org/10.1007/JHEP11(2023)109  

   Gonzalo, Eduardo; Montero, Miguel; Obied, Georges; Vafa, Cumrun (November 2023, Journal of High Energy Physics)

   A<sc>bstract</sc> We consider cosmological aspects of the Dark Dimension (a mesoscopic dimension of micron scale), which has recently been proposed as the unique corner of the quantum gravity landscape consistent with both the Swampland criteria and observations. In particular we show how this leads, by the universal coupling of the Standard Model sector to bulk gravitons, to massive spin 2 KK excitations of the graviton in the dark dimension (the “dark gravitons”) as an unavoidable dark matter candidate. Assuming a lifetime for the current de Sitter phase of our universe of order Hubble, which follows from both the dS Swampland Conjecture and TCC, we show that generic features of the dark dimension cosmology can naturally lead to the correct dark matter density and a resolution of the cosmological coincidence problem, where the matter/radiation equality temperature (T~ 1 eV) coincides with the temperature where the dark energy begins to dominate. Thus one does not need to appeal to Weinberg’s anthropic argument to explain this coincidence. The dark gravitons are produced atT~ 4 GeV, and their composition changes as they mainly decay to lighter gravitons, without losing much total mass density. The mass of dark gravitons ism_DM∼ 1 − 100 keV today. 

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2. Search for dark photon dark matter: Dark E field radio pilot experiment

   https://doi.org/10.1103/PhysRevD.104.012013  

   Godfrey, Benjamin; Tyson, J. Anthony; Hillbrand, Seth; Balajthy, Jon; Polin, Daniel; Tripathi, S. Mani; Klomp, Shelby; Levine, Joseph; MacFadden, Nate; Kolner, Brian H.; et al (July 2021, Physical Review D)

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3. Dark matter, dark energy and fundamental acceleration

   https://doi.org/10.1142/S0218271820430300  

   Edmonds, Douglas; Minic, Djordje; Takeuchi, Tatsu (October 2020, International Journal of Modern Physics D)

   We discuss the existence of an acceleration scale in galaxies and galaxy clusters and its relevance for the nature of dark matter. The presence of the same acceleration scale found at very different length scales, and in very different astrophysical objects, strongly supports the existence of a fundamental acceleration scale governing the observed gravitational physics. We comment on the implications of such a fundamental acceleration scale for constraining cold dark matter models as well as its relevance for structure formation to be explored in future numerical simulations. 

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4. Fuzzy dark matter and the dark dimension

   https://doi.org/10.1140/epjc/s10052-024-12622-y  

   Anchordoqui, Luis A; Antoniadis, Ignatios; Lüst, Dieter (March 2024, The European Physical Journal C)

   Abstract We propose a new dark matter contender within the context of the so-called “dark dimension”, an innovative 5-dimensional construct that has a compact space with characteristic length-scale in the micron range. The new dark matter candidate is the radion, a bulk scalar field whose quintessence-like potential drives an inflationary phase described by a 5-dimensional de Sitter (or approximate) solution of Einstein equations. We show that the radion could be ultralight and thereby serve as a fuzzy dark matter candidate. We advocate a simple cosmological production mechanism bringing into play unstable Kaluza–Klein graviton towers which are fueled by the decay of the inflaton. 

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5. Dark dimension and decaying dark matter gravitons

   https://doi.org/10.1103/PhysRevD.109.063540  

   Obied, Georges; Dvorkin, Cora; Gonzalo, Eduardo; Vafa, Cumrun (March 2024, Physical Review D)