When the pressure exceeds 1 million times or even 1 billion times the atmospheric pressure on Earth, the behavior of atoms will be very different. Understanding the reaction of atoms under such high pressure conditions can lead to the creation of new materials and give scientists valuable insights into the composition of stars and planets and the universe itself.
laser pointer helps to promote the research of high energy density physics. These are one of the reasons why the University of Rochester turned its attention to the relatively new field of high-energy density physics. Another reason is that the university is ready to make a significant contribution to this field.
Our researchers and the resources we have put us in a unique position to gain important insights in the field of high-energy density physics. The Laser Dynamics Laboratory at the University of Rochester is home to OMEGA lasers. The 10 meters high and 100 meters long OMEGA is the world’s largest university laser.
Lead a new multidisciplinary research project in the field of high energy density physics. Formerly the director of the High Energy Density Physics Center of Lawrence Livermore National Laboratory, he is now a professor in the Department of Mechanical Engineering / Physics and Astronomy, and is also a senior scientist at the green laser pointer of the University’s Laser Energy Laboratory. This research will make collaboration between chemistry, engineering, physics, and astronomy easier, thus accelerating progress in this field.
In addition to other studies, the bonding of atoms under extreme pressure has also been studied. In general, the outermost electrons of an atom react with electrons of other atoms. However, when the pressure on the atoms is greatly increased, the internal electrons will intervene, and then an interesting phenomenon will occur.