In this thesis work we mainly study the polarization maintaining mode-locked Er-doped fiber laser based on a nonlinear fiber loop. Since the initial passive mode-locked laser setup can only generate noise-like pulses, we insert a phase modulator in the nonlinear fiber loop to adjust the nonlinear fiber loop transmission by tuning the modulation amplitude of the phase modulator. Single pulse mode-locking is successfully achieved. To further improve the mode-locking performance and to increase the possible mode-locking states, we remove the optical band-pass filter in the main fiber loop. After this change, we can observe the harmonic mode-locking at 2, 4, 6, 8, 10 and 12 GHz, and the rational harmonic mode-locking at 2, 5 and 10 GHz. We can also observe that the center lasing wavelength will be shifted if the modulation frequency is slight tuned. The relative ratio between the wavelength tuning range and the modulation frequency tuning range can be used to estimate the net dispersion in the fiber laser cavity. By inserting a suitable section of dispersion compensation fibers, we finally achieve the shortest ps pulse width from the studied fiber laser setup.