I. Basic Information

 Project Subject: Institute of High Energy Physics, Chinese Academy of Sciences

 Beijing Huairou Science City Construction and Development Co., Ltd.

 Category: First batch of cross-research platforms

 Location: Central Area of Huairou Science City

 Area: 64 mu

 Building area: 20966 m2

 Total investment: 596.46 million yuan

　　Subject orientation: Material science

 Real-life View of R&D and Testing Platform for Advanced Light Source Technology

 II. Main Contents

 Project introduction: Platform of Advanced Photon Source Technology R&D (PAPS) is one of the first cross-research platforms built in the Huairou Science City with support from Beijing and the Chinese Academy of Sciences.

This platform is focused on advancing key technologies for advanced photon sources, creating an integrated technological innovation system for the generation, transmission, detection and application of high-quality X-rays. Examples of such technologies include superconducting high-frequency technologies for accelerators, cryogenics, magnet technologies, etc. In addition, the portfolio includes ultra-high resolution optical detection technologies, ultra-high precision X-ray optical component processing technologies, high-performance X-ray detection technologies and X-ray application technologies.This platform conducts in-depth research on the principles and technologies of advanced photon sources, improves the development of X-ray science and technological research systems, explores feasible paths for the leapfrog development of advanced photon sources, provides comprehensive technical support for the construction and operation of high-energy synchrotron radiation sources, and builds a versatile, modular, intelligent public support platform.

This platform provides an adequate scientific research foundation for the development of new technologies, methods and equipment for accelerator and X-ray applications. It serves as a research and development site for high-tech and an output site for the transformation of research results.

This platform consists of two sub-platforms: research on accelerator technology innovation and research on X-ray technology innovation.

The sub-platform for research on accelerator technology innovation includes four parts: superconducting high-frequency system, cryogenic system, precision magnet system, and beam test system. The sub-platform for X-ray technology is divided into three parts: X-ray optics, X-ray detection, and X-ray applications. This platform provides a fast and efficient way to develop, verify and improve advanced photon source technologies, supporting innovation in this field. It also facilitates the transition from laboratory results to industrialisation, effectively promoting the development of related disciplines and technologies.