Using Transmission Laser Bonding Technique for Line Bonding in Microsystem Packaging

The transmission laser bonding (TLB) technique has been developed for the formation of continuous line bonds for microsystem packaging applications. Line bonds are generated by overlapping single bonding spots, in which the degree of overlapping is achieved by varying the scanning speed of the laser as it irradiates the bonding wafers. An analytical model has been developed to guide the TLB process, attaining a uniform laser intensity that produces uniform bonds, satisfying the bonding requirements. Guided by this model, experiments have been conducted to bond Pyrex glass-to-Si wafers at various bonding conditions. To demonstrate the reliability of the technique and the model developed, the strength of the resulting bonded pairs has been evaluated by a micro tensile tester. At contact pressures higher than 1 MPa, the strength of bonded lines can reach a stable value of 9.2 MPa, which is comparable to those obtained by other major bonding processes. To further understand the associated bonding mechanism, the bonded interface has also been analyzed using auger electron spectroscopy and X-ray photoelectron spectroscopy, quantifying the drifting or diffusion of atoms that occurs between glass and Si wafers during the bonding process