Application of Zero Expansion Microcrystalline Schott Glass

The three major qualities of Schott Group, a high-tech special glass material manufacturer, are driving innovation, taking responsibility, and co creation. For over half a century, scientists have been studying controllable nuclear fusion reactions, and achieving fusion energy seems to be far away. Achieving higher energy than fusion has become the biggest challenge facing scientists. In December 2022, the National Ignition Facility (NIF) of the United States achieved energy gain in nuclear fusion reactions for the first time, marking an important milestone in human energy history. Schott's series of advanced laser glass and optical glass

contributed to the success of this experiment. Laser fusion ignition achieved net energy gain, making clean energy possible. For decades, Schott has been committed to developing advanced specialty glass to support human scientific research and many industrial applications.

Nowadays, Schott's laser glass is widely used in various industries, making crucial contributions in scientific research, human health, travel safety, and other fields. In the medical field, medical equipment uses laser glass to remove scar tissue, tattoos, etc. from the skin. In terms of mobile travel, laser glass achieves autonomous driving by providing light pulses for distance measurement. In addition, the measurement system relying on advanced laser glass can promote the development of scientific frontiers.

Scientists at Schott are constantly pushing the physical limits of laser glass, as the enormous energy generated by the interaction between glass and matter makes clean energy possible and has enormous potential. The derived X-rays, charged particles under near relativistic conditions, and high neutron counting have all sparked interest in new applications. In the future, laser glass will continue to be a pioneering technology that supports scientific research and numerous industrial applications.返回搜狐,查看更多

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