An Yb doped large-mode-area (LMA) fiber with a core diameter of 30 μm and an inner cladding diameter of 250 μm, and an Er/Yb codoped fiber with a core diameter of 25 μm and an inner cladding diameter of 300 μm have been used for researching in development of high power fiber lasers. Firstly we demonstrated tunable and narrow linewidth Yb and Er/Yb fiber lasers by use of thin film narrowband filters. Afterwards we have demonstrated passively and actively Q-switched fiber lasers. By use of Yb doped fiber as the gain medium, we have obtained passively Q-switched fiber lasers by employing a Cr4+:YAG crystal and an AlGaInAs semiconductor material as saturable absorbers respectively. The results revealed that with a Cr:YAG as a saturable absorber in a diode-pumped Yb fiber laser, the laser could generate a pulse energy of 350 μJ at a repetition rate of 38 kHz. For the use of AlGaInAs based saturable absorber experiment, we have realized a pulsed laser with 450-μJ pulse energy and can be operated at pulse repetition rate of 5~30kHz. The pulse train is very stable of ~10% fluctuation. Besides, we also obtained a passively Q-switched Er/Yb codoped fiber by means of another AlGaInAs semiconductor saturable absorber. Greater than 0.1 mJ of pulse energy at a repetition rate of 12 kHz was generated. Finally in the actively Q-switched fiber lasers, by enhancing the loss modulation of the active Q-switch (acoustic-optical modulator), we have obtained pulse of 600-μJ pulse energy and 42-ns pulse width.