分类: 物理学 >> 核物理学 提交时间: 2016-09-13
摘要: We suggest the universe is Finslerian in the stage of inflation. The Finslerian background spacetime breaks rotational symmetry and induces parity violation. The primordial power spectrum is given for quantum fluctuation of the inflation field. It depends not only on the magnitude of wavenumber but also on the preferred direction. We derive the gravitational field equations in the perturbed Finslerian background spacetime, and obtain a conserved quantity outside the Hubble horizon. The angular correlation coefficients are presented in our anisotropic inflation model. The parity violation feature of Finslerian background spacetime requires that the anisotropic effect only appears in angular correlation coefficients if l′=l+1. The numerical results of the angular correlation coefficients are given to describe the anisotropic effect.
分类: 物理学 >> 核物理学 提交时间: 2016-09-13
摘要: We propose a Finsler spacetime scenario of the anisotropic universe. The Finslerian universe requires both the fine-structure constant and accelerating cosmic expansion have dipole structure, and the directions of these two dipoles are the same. Our numerical results show that the dipole direction of SnIa Hubble diagram locates at (l,b)=(314.6∘±20.3∘,−11.5∘±12.1∘) with magnitude B=(−3.60±1.66)×10−2. And the dipole direction of the fine-structure constant locates at (l,b)=(333.2∘±8.8∘,−12.7∘±6.3∘) with magnitude B=(0.97±0.21)×10−5. The angular separation between the two dipole directions is about 18.2∘.