Typical Cases
The Photoelectron Spectroscopy Beamline is the core station of Hefei Light Source (NSRL) open to the outside world. It is widely used in the research of physics, chemistry, materials, etc., and has many fields in environmental science, energy science, catalytic science, physics, chemistry and other fields. Innovative research results.
The extreme ultraviolet beam transmission system is one of the key systems of the Large Continuous Phase Light Source (DCLS) light source technology. It is mainly used to efficiently transmit extreme ultraviolet beams that are generated in vacuum and cannot be transmitted in the air to experimental research work. stand.
Shanghai Laser Electron Gamma Source (SLEGS) is the first laser Compton gamma source device in the world that obtains different gamma energies by changing the collision angle of laser and electrons. This laser transmission system is a key component and is mainly used to accurately transmit CO lasers and electron beams larger than W to the target location for collision to achieve Compton scattering and generate gamma light.
The free electron laser device (SHINE) is a light source with high brightness and coherence, which can provide high-resolution imaging and ultrafast photoionization mass spectrometry beams for physics, chemistry, life sciences, materials science, energy science and other disciplines. The line is the core station of Hefei Light Source (NSRL) open to the outside world. It is an important means of identifying molecular structures and is used in organic synthesis, petroleum chemical engineering, environmental monitoring, biochemistry, biotechnology, clinical analysis and metabolism, etc. It is widely used in research. Advanced research methods such as process exploration and fine structure analysis.
The free electron laser device (SHINE) is a light source with high brightness and coherence, which can be used for physics, chemistry, life sciences, materials science, energy science, etc.
Multi-discipline provides advanced research methods such as high-resolution imaging, ultra-fast process exploration, and fine structure analysis.
The terahertz near-field high-flux material physical property testing system is an important means to study the physical properties of functional materials such as superconducting, multiferroic, and giant magnetoresistance under conditions such as controllable temperature, magnetic field, and electric field. It has important implications for information, energy, and Areas of major national demand such as optoelectronics are of great significance.
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