Previously very few studies have conducted to examine creativity performance and its realted impact fators in a professional domain, such as System Engineering. Even less has been studied using longitudinal method to reveal multiple time points in the class across a semester. The purpose of this study was to examine the process and subjective experiences when college students developed their creative products and investigated some characteristics that might impact domain specific creativity in high tech domain of System Engineering courses. This study set the research framework based on Ford’s theory of creative individual action model (1996) and college student learning circumstances. In the theretical model, “optimal experiences” and “approached achievement goals” are are viewed as the distal factors or sufficient conditions for domain specific creativity. “Creative self-efficacy” and “domain knowledge” are two proximal factors (necessary conditions) and the mediators in the model.The data of this research is only collected from students who attended system engineering courses through their learning process in these courses. Distal factors, proximal factors and creativity performance (outcome variable) are collected in five waves (time points) of System Engineering courses. Besides, creativity levels of students’ products were evaluated by product assessment. This study is among pioneers in Taiwan to conduct Day Resconstruction Method (DRM) on college students and built a cross-disciplinary team between educational psychologist and System Engineering to explore impact factors of student’s creativity. Moreover, this study focused on Pro-C (Cropley & Kaufman, 2012) to analyze specialized domain creativity. The participants were 48 engineering college students who attended System Engineering courses. Learning experiences data were collected by Day Resconstruction Method (DRM) and students provided 2885 episodes in total. The numbers of activities, classroom companions and learning acitivity types were compared among the target courses, other courses, campus life activities and part time work. Cross-section investigations were conducted to collect data of distal and proximal variables except learning experiences and product assessment was adopted to identify students’ product creativity. Then Partial Least Structural Equation Modeling (PLS-SEM) was used to test the path coefficients of the mediation models and direct and indirect effects. At last, the author chose some products to do case study and the feedback from a teacher was collected to analyze the teaching plan, students’ learning experiences, creative performance and group learning. The major findings of the research were summarized as in below. 1. The chi-square tests show that in system engineering courses, the frequiences of after-class activities, interaction with peers and doing homework and experiements were significantly higher than the expected value. The results in other courses are opposite. And the t-test indicated that students’ enjoyment (emotional experience) in System Engineering courses was similarly to that in other couses and works. 2. From the five-wave data collected in system engineering courses, it was found that sudents’ experiences experiments were stably positive or went more positive in activities with higher automomy. Compared with men, women’s experiences were rising up toward more positive; compared with students majored in System Engineering, students from other departments reported to have poor learning experiences. 3. Scores of creative product assessment showed acceptable inter-rater reliability. The result of assessment indicated that a professional product would be identified as high creativity only when it shows high qualities of (1) professional logical thinking and (2) originality. 4. Regarding the examination of two mediation models, results of Partial Least Squares Structural Equation Modeling analysis showed that the hypothetical models were rejected. There were three possible exaplantions : ① The project assigned might not allow large scale of professional creativity. ② The creative projects of four courses were not in adequate level of coherence. ③ The relation between students’ traits and creativity were truely unexpected. 5. From cases analysis and the teacher’s feedback, it was found that students’ creative self-efficacy were rather low. It might be because that they lack of creative experiences in the classroom or because they were “modest” in evaluating themselves. In addition, it was very likely that the dynamic of group cooperation interacted with individual characteristics to influence the preformanc of creativity. Four system engineering courses in this study were designed as the cape stone course. The course aimed toward project-based learning and used the flipped classroom strategy to develop student’s basic professional knowledge and skills. Therefore, the generalization of the results is restricted in Engineering course and within stundent groups of similar the educational level. According to above results, several suggestions were given for teachers and future researchers.