We have measured the specific heat, magnetization, AC susceptibility and time-resolved pump probe spectra of Mn0.945Si and Mn0.998Si. The specific heat C/T – T measurements showed the magnetic phase transition temperature of Mn0.945Si and Mn0.998Si. The phase transitions between Conical phase, Skyrmion phase, IM phase, PM phase and FM phase were observed. The phase diagrams of Mn0.945Si and Mn0.998Si were sketched by integrated several sets of C/T – T data in different applied magnetic field. We observed that in Mn0.998Si, the region of Skyrmion phase was relative large (T=24~26 K, H=0~0.45 T) compared with other Mn-Si ratio. More importantly, in Mn0.998Si, the Skyrmion phase stably exists at H=0 T. The magnetization measurements χac-T, M-T was also performed in this study. The χac-T data showed the magnetic phase transitions in each phase transition temperatures are corresponding to the C/T – T measurements. Moreover, the time-resolved pump probe spectroscopy was also carried out at various temperatures and magnetic fields. We used 400-nm circularly polarized light as the pump beam and 800-nm linearly polarized light as the probe beam. We analyzed the transient reflectivity changes (ΔR/R) of the 800-nm probe light to investigate the excited carrier relaxation processes in different magnetic phases. In Mn0.945Si, we observed that the spin-lattice thermalization time and spin reordering time change in different magnetic phases. For the case of Mn0.998Si at H = 0.26 T, the ΔR/R at zero time delay, i.e. ΔR/Rt=0, also changed in different magnetic phases. In summary, we investigated the magnetic phases in Mn0.945Si, Mn0.998Si single crystals at various temperatures and magnetic fields. Additionally, the excited carrier relaxation processes in each magnetic phase were also been studied, which indicated that quasiparticle properties are distinct in different magnetic phases.