http://arxiv.org/abs/1810.05393
We have suggested earlier that D-particles, which are stringy space-time defects predicted in brane-inspired models of the Universe, might constitute a component of dark matter, and that they might contribute to the masses of singlet fermions that could provide another component. Interactions of the quantum-fluctuating D-particles with matter induce vector forces that are mediated by a massless effective U(1) gauge field, the “D-photon”, which is distinct from the ordinary photon and has different properties from dark photons. We discuss the form of interactions of D-matter with conventional matter induced by D-photon exchange and calculate their strength, which depends on the density of D-particles. Observations of the hydrogen 21~cm line at redshifts >= 15 can constrain these interactions and the density of D-matter in the early Universe.
J. Ellis, N. Mavromatos and D. Nanopoulos
Mon, 15 Oct 18
28/56
Comments: 15 pages revetex; possible minor text overlap with arXiv:1706.04080 [gr-qc] and arXiv:1712.03395 [hep-ph]
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