The present work is to develop a new Y-type passive chaotic micromixer classified by fractal dimension by the numerical and experimental approaches. To enhance the mixing index, three different types of the tree-like fractal patterns were used. The fractal patterns branch for one time (model II), two times (model III), and three times (model IV) have been assigned as the embedded grooves into the main channel of the micromixer. The fractal dimensions are also calculated as 1.222, 1.585, and 1.716 by the box theory. The softwares ICEM/CFD, FLUENT, TECPLOT are used to implement the pre process, field computation, and the post process of the numerical simulation of the new micromixer’s flow field. Three Reynolds numbers of 0.64, 6.4, and 64 are considered. To verify the numerical results, the soft lithography of MEMS technology is used to fabricate the new micromixer. An inverted fluorescence microscopy is used to capture the mixing image of the micromixer, and the mixing index values are derived from the mixing images by MATLAB. Both the numerical and the experimental data show the good mixing of the new device. With the same fractal pattern, the lower Reynold number flow (0.64) has the higher mixing index. The fractal patterns branch for two times (model III) is also better than other cases with high mixing performance.