吴琪：扎根西藏 助计算物理在高原“加速”

Core Insights - The article highlights the journey of Wu Qi, a theoretical physicist who chose to work in Tibet, contributing to the development of physics research in the region and addressing the gap in scientific resources and education compared to mainland China [1][2][3]. Group 1: Research Development - Wu Qi faced significant challenges in establishing her research career in Tibet, including a lack of personnel and equipment when she started in 2015 [2]. - By 2019, Wu Qi's research team began to take shape with the addition of graduate students, and the "Multiscale Material Simulation and Application Research Laboratory" was officially established [2]. - Wu Qi's efforts have led to increased collaboration between Tibet University and other institutions, expanding the scope of academic exchanges [2][3]. Group 2: Innovative Research Approaches - Wu Qi's research focuses on utilizing computational physics to accelerate material research, particularly in the context of oxygen production in high-altitude environments [3][4]. - The team aims to find alternative porous materials for oxygen production, leveraging Tibet's abundant solar energy for water electrolysis [3][4]. - The application of computational methods has significantly reduced the time and cost associated with material synthesis, with potential production costs for oxygen being lower than current market prices [4]. Group 3: Educational Impact - Wu Qi has made significant contributions to teaching at Tibet University, enhancing the learning experience for students in physics through innovative teaching methods [5][6]. - She emphasizes the importance of nurturing young talent and encourages students to participate in academic conferences to broaden their horizons [5][6]. - The educational initiatives at Tibet University reflect a broader trend of improving higher education and research capabilities in the region, contributing to local economic development [6][7].