![]() The key technology required to realize this brightness is superconducting RF (SCRF) accelerating technology. The practical implementation of ICS sources, however, depends on the ability to achieve the high peak brightness of the X-rays. Progressive advancements in these research areas will lead to various applications in the industrial, medical, and security-related fields. ICS is widely recognized as a promising approach to achieve high-intensity high-quality X-rays, which might offer unique capabilities in a wide range of research fields, such as post-genome, nano-technology, or structural analysis at the atomic level. At this program, accelerated electrons collide with a laser using a novel technology called a four-mirror optical cavity that circulates laser pulses and amplifies its resonance. This process, called inverse Compton scattering (ICS), occurs in many astronomical environments that produce high energy X-rays or gamma rays. When a moving electron collides with a soft photon, the recoiling photon gains energy by transfer from the incoming electron. This program takes advantage of the quantum mechanical nature of the particles, and aims to develop a compact and high-quality particle source for broad and practical applications in medicine, life sciences, information technology, nanotechnology, and quantum science. In addition, if there were no laser which also relies on quantum principles, no Blu-ray players would exist. For example, without quantum mechanics there would be no transistors, and consequently, no personal computers. Quantum mechanics has a broad influence on our everyday lives. ![]() The name, Quantum Beam, refers to beams of particles such as neutrons, photons, and ions. The Quantum Beam Technology Program is a 5-year program supported by the Ministry of Education, Culture, Sports, Science, and Technology. This is the world’s first successful implementation of ICS X-ray sources with SCRF technology. On March 15, scientists working on the Quantum Beam Technology Program at KEK’s superconducting RF test facility (STF) confirmed the successful generation of X-rays using Inverse Compton Scattering (ICS) with superconducting radiofrequency (SCRF) acceleration technology. Topics Successful X-ray Generation using Inverse Compton Scattering with SCRF Technology Confirmed at STF
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