The German Electronic Synchrotron Research Center has developed a powerful laser that has taken scientists one step closer to the goal of observing the chemical reaction process.
According to a recent report from the German media, a free-electron laser was developed by a research team composed of scientists from many countries at the German Electronic Synchrotron Research Center "DESY" in Hamburg. It consists of a 250-meter acceleration unit and a 30 x 50-meter laboratory. An electronic package of 10 billion electrons is produced in a unit of 0.1 x 0.1 mm size, accelerated to a level close to the speed of light, and then passed through a long magnet structure. Among them, electrons are sent into a wave-like slide to generate light. The light will help the electrons eventually vibrate in concert to emit a laser.
Professor John Schneider, the research director, said that this short-wavelength laser can observe the nano-world and will help researchers conduct a wide range of experiments in the natural sciences, from physics to chemistry to materials science, as well as geological research and life. science. It is reported that until 2008, Germany will be the only country in the world to have such a laser.
This new laser is only part of a larger research project. The goal of this project is to be able to capture ongoing chemical reactions or movements of biomolecules. To this end, the particles will be accelerated in a 3.3-kilometer underground pipeline, and then high-speed particles close to the speed of light will emit X-rays, providing an important means of ultimately obtaining structural and dynamic information of the atomic system. This pipeline is currently under construction near Hamburg.
According to a recent report from the German media, a free-electron laser was developed by a research team composed of scientists from many countries at the German Electronic Synchrotron Research Center "DESY" in Hamburg. It consists of a 250-meter acceleration unit and a 30 x 50-meter laboratory. An electronic package of 10 billion electrons is produced in a unit of 0.1 x 0.1 mm size, accelerated to a level close to the speed of light, and then passed through a long magnet structure. Among them, electrons are sent into a wave-like slide to generate light. The light will help the electrons eventually vibrate in concert to emit a laser.
Professor John Schneider, the research director, said that this short-wavelength laser can observe the nano-world and will help researchers conduct a wide range of experiments in the natural sciences, from physics to chemistry to materials science, as well as geological research and life. science. It is reported that until 2008, Germany will be the only country in the world to have such a laser.
This new laser is only part of a larger research project. The goal of this project is to be able to capture ongoing chemical reactions or movements of biomolecules. To this end, the particles will be accelerated in a 3.3-kilometer underground pipeline, and then high-speed particles close to the speed of light will emit X-rays, providing an important means of ultimately obtaining structural and dynamic information of the atomic system. This pipeline is currently under construction near Hamburg.
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