This thesis studies the bonding thechnique of semiconductor laser by using CuW C-mount. By measuring and analyzing the optical and electrical characteristic of quantum well (QW) and quantum dot (QD) laser , the relation between power conversion efficiency (PCE) and cavity length can be concluded and thus one can obtain the optimum cavity length of the laser. AuSn solder have been used during the process of die bonding. The composition and phase transition of the solder can be observed by utilizing EDS before and after bonding process.Also , the bonding quality can be evaluated by using X-ray , SEM and die shear test. The thermal resistance of the 915-nm InGaAs single quantum well laser bonded on C-mount , which is fabricated by optoelectric company in Taiwan , is less than 2 K/W , which reveals that the bonding technique is quite well. The power budget , which is related to the heat dissipation of the device , have been shown by utilizing the 915-nm and 808-nm high power quantum well diode lasers fabricated by optoelectric company and the quantum dot lasers grown by MBE system from our labarotary. The optimum cavity length is affacted by the extracted parameters of the laser. One can obatain the optimum cavity length by deriving the optimization function. Results show that the actual value is quite consistent with the theoretical value.