Matter distribution in the Universe can cause the gravitational lensing effect, which would contaminate the cosmic microwave background (CMB) pattern we have observed today. So we did the N-body simulation as the matter distribution in the Universe, combined with the ray-tracing method to simulate the gravitational lensing effect. From observation we have found the anisotropy of temperature distribution, which means that there could be anisotropy of energy distribution on the last scattering surface. This implies that there are opportunities to find polarization in cosmic microwave background. Thus we also simulate the temperature, and polarization distribution pattern of cosmic microwave background with the help of the simulation code of my advisor. Add the gravitational lensing effect into the cosmic microwave background pattern, we found from the results that the CMB temperature and polarization are affected mainly in small scale.

\bibitem{4} Paolo Cabella Marc Kamionkowski, Theory of cosmic microwave background polarization, astro-ph/0403392

Google Scholar

\bibitem{6} Bbuvnesh Jain, Uro${\breve{s}}$ Seljak, Simon White, Ray-tracing simulation of weak lensing by large scale structure, APJ 2000 530 547-577

Google Scholar

\bibitem{7} Martin White, Chris Vale, Simulations of weak gravitational lensing, astro-ph/031133

Google Scholar

\bibitem{8} Premana Premadi, Hugo Martel, Richard Matzner, Toshifumi Futamase Light propagation in inhomogeneous Universe II. Cosmological parameter survey, astro-ph/0101359

Google Scholar

\bibitem{9} H.M.P Couchman, P.A. Thomas, F.R. Pearce, Hydra : an adaptive-mesh implementation of P3m-SPH, APJ 1995 452 797-813

Google Scholar