In this thesis, we study the ultrafast dynamics of YBCO/BFO heterostructures by using dual-color pump-probe spectroscopy. The relaxation behavior of photoexcited carriers in superconducting state and normal state of YBCO can be revealed by measuring the transient reflectivity changes (ΔR/R) at various temperatures; meanwhile, the anisotropy of quasiparticle relaxation in YBCO/BFO heterostructures can be observed through varying the thickness of the BFO layer. At first, we measured the ultrafast spectra of a single-layer YBCO thin film and a single-layer BFO thin film to verify the complicate ΔR/R signals in YBCO/BFO heterostructures, which are composed of two components, i.e., positive (ΔR/R>0 before 15 ps) and negative (ΔR/R<0 after 15 ps) signals. By fitting with the exponential decay functions, we found that the positive component in ΔR/R is similar to that of a single-layer YBCO thin film. On the other hand, the negative component in ΔR/R is due to the BFO layer under the YBCO layer. Moreover, the BFO layer with stripped ferroelectric domains and the net magnetic moments at the domain walls would further lead to the anisotropy of quasiparticle relaxation and superconducting transition temperatures (Tc) in YBCO/BFO heterostructures.