This study utilized two L-tubes filled with water, generated different size single cavitation bubbles by changing the U-shape platform’s angular velocity. One of the cavitation bubbles was moved to a specific stand-off distance from the other bubble through a connection tube. The bubble was collapsed by triggering a pressure pulse under different distance between bubbles. During the experiment, we analyzed the zone which has low velocity and high pressure was produced after bubble collapsed. 　　A high speed camera (CCD) which can take 8000 images per second, was adopted to take sequential images of the different sized collapsed bubble flow in this study. The characteristics of the interaction of the different sized bubbles collapse flow were analyzed based on the recorded sequential images. The detail velocity fields of the interaction of the collapsed bubble flows were measured by particle image velocity (PIV) method. According to the results of PIV, movement of the liquid zone not only influences the motion of the flow fields, but also produces disturbe flow between the bubbles. The effect of the interaction of the pressure waves between two bubbles led to the disturbed flow field, resulted in the Rayleigh-Taylor instability, Kelvin-Helmholtz instability and Richtmyer-Meshkov instability. 　　Experimental results show that the effect of changes on the bubble appearance, thrust and interactions increased as the distance parameter γ ( value decreased. On the other hand, the collapsing pressure would be effected by the different position of bubbles. The collapsing pressure is reducing when left bubble has less collapsed time. In addition, the complex phenomena of the collapsing flows of two different sized cavitation bubbles are presented and analyzed clearly. 　　 Keywords： Cavitation, two bubbles, PIV,interaction