Thermal Unparticles: A New Form of Energy Density in the Universe

Abstract

Unparticle with scaling dimension d has peculiar thermal properties due to its unique phase space structure. We find that the equation of state parameter ω, the ratio of pressure to energy density, is given by 1/(2d +1) providing a new form of energy in our universe. In an expanding universe, the unparticle energy density (T) evolves dramatically differently from that for photons. For d >1, even if (TD) at a high decoupling temperature TD is very small, it is possible to have a large relic density (T0γ) at present photon temperature T0γ, large enough to play the role of dark matter. We calculate TD and (T0γ) using photon-unparticle interactions for illustration.