实验室简介
凝聚态物理与材料科学的交叉领域,特别侧重凝聚态理论前沿进展(如拓扑序、分数化、量子阻挫)与实际材料的对接。主要基于成熟的第一性原理计算方法模拟材料的相关特性,进而提炼抽象物理模型关注的关键信息,并为实验上材料的制备、表征和调控提供理论支持。
We are interested in the intersection of condensed matter physics and materials science, particularly focusing on bridging the frontier of condensed matter theory, such as topological order, fractionalization and quantum frustration, with real-world materials. Our research is mainly based on well-established first-principles calculation, from which the properties of materials are simulated, quantified and further mapped to effective physical models. These studies are also used to provide important support for the synthesis, characterization and modulation of materials in experiment.
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