Abstract People learn mainly through acquiring information with visual organs. A thorough observation on eye movement behaviors may gain our comprehension on how the attenation is distributed in learning processes. Learning by playing digital games can improve individual mental progress, and elevate learning to a higher stage as well. During gaming, the initial stage serves as a predominate role relating to players' learning process. The present research aims to investigate whether different thinking styles and game experience may have impact on eye movement behaviors. Fifty-nine third-grade senior high school students from northern Taiwan participated in the study. Eye movement data in sudoku games were collected using an eye tracker. Thinking style and game experience were measured using questionnaires. The eye movement indicators include DWELL TIME, FIXATION COUNT, and RUN COUNT. The screen of sudoku game is split into 7 areas of interest and the interest of period is one minute after players started playing, by each ten seconds. We conducted a series of one-way ANOVAs and regression alalysis to analyze the eye movement data. The results are as follows: 1. As far as the players are concerned, we revealed significant difference on the DWELL TIME, FIXATION COUNT, and RUN COUNTwith respect to different areas of interest between players. In addition, we found significantly higher DWELL TIME, FIXATION COUNT, and RUN COUNT on the 9 square areas than all the other areas, which suggested that the sudoku game should be the players' major mission. Minor information, such as the title area, icon area, and the timer tends to be ignored. Regarding the rule area, RUN COUNT in the first period was significantly higher than all the other periods of interest, which indicated that the players would set up the rules at the initial stage of the game. 2. In the aspect of thinking styles, we found that executive players had lower RUN COUNT, while implied that judicial players had higher RUN COUNT. The executive players returned to check the rule area less often because they were less likely to doubt after the rules were set; by contrast the judicial players keeped focusing on analyzing the rules from different perspectives, resulting in repeatedly returning to check the area. In addition, the legislate players performed little reaction to RUN COUNT, for their property of innovation might not be properly elaborated in a closed-system sudoku game. 3. Within the criteria of game experience, the regression analysis indicated that in the first period of interest, experienced players gazed at the whole screen with a higher frequency, inferring that game experience and search time could be negatively correlated; one of the possible causes might be that experienced players were able totapped in the analytical thinking stage sooner. As to the second period of interest, experienced players had higher RUN COUNT in the icon area, owing that they might have to make proper responses to the information in the icon area so that they tendedto perform better in the game.