Cosmological constraints on unparticle dark matter

Abstract

In unparticle dark matter (unmatter) models the equation of state of the unmatter is given by p=/(2dU+1), where dU is the scaling factor. Unmatter with such equations of state would have a significant impact on the expansion history of the universe. Using type Ia supernovae (SNIa), the baryon acoustic oscillation (BAO) measurements and the shift parameter of the cosmic microwave background (CMB) to place constraints on such unmatter models we find that if only the SNIa data is used the constraints are weak. However, with the BAO and CMB shift parameter data added strong constraints can be obtained. For the model, in which unmatter is the sole dark matter, we find that dU > 60 at 95% C.L. For comparison, in most unparticle physics models it is assumed dU<2. For the model, in which unmatter co-exists with cold dark matter, we found that the unmatter can at most make up a few percent of the total cosmic density if dU<10, thus it can not be the major component of dark matter.