In order to fabricate high-quality crystalline materials for exploration of material's emergent quantum properties, the Institute of Physics started to construct an integrated system in 2013 and completed it in 2017. During the years of 2021 and 2023, the Ministry of Science and Technology's "Taiwan Consortium of Emergent Crystalline Materials (TCECM) Program” has granted a service project to it for expanding its usage and collaboration from the domestic materials scientists. The system includes Metal Molecular Beam Epitaxy (MBE), Angle-Resolved Photoelectron Spectroscopy (ARPES), and Ultra-High Vacuum Scanning Probe Microscopy (UHV SPM), which can in situ grow and characterize emergent crystal materials. This system provides a controllable environment to enable real-time on-site analyses after crystal growth, so that the design and fabrication of functional crystal materials can be achieved with high efficiency.

中央研究院物理研究所鑑於量子材料的嶄新發展，自2013年啟開始建購將提供一個集成系統，包括金屬分子束外延 (MBE)、角分辨光電子能譜 (ARPES) 和超高真空掃描探針顯微鏡 (UHV SPM)，用於生長和表徵新穎晶體材料。 於2017年建購完成開放使用，並於2021-2022年間加入科技部之「尖端晶體材料開發及製作計畫」，進一步將該特殊儀器與設施和國內材料科學學分享，增加研究效率與國際競爭力。該系統提供了一個可控的環境，可以實現晶體生長後的即時臨場分析，從而高效地實現功能晶體材料的設計和製造。