Researchers come from Geneva University carrying a giant laser to the top of the mountain to shoot on the sky, acting as a high-tech tactical column.0: 00/3: 41 male laser transmitter on top of Säntis. Photo: University of Geneva. The research group is headed by Jean-Pierre Wolf, the Swiss physicist has over 20 years of experience working with lasers, especially interested in weather control. Laser creates a narrow light beam with high energy
. Laser application is very diverse, from cutting diamonds to surgery and barcode reading. Wolf said that lasers can protect people in front of thunder. Wolf is leading alliances including universities in Paris and Lausanne, as well as Arianegroup missile manufacturers and laser manufacturers, high-tech companies Trumpf of Germany
After a year of postponing due to the pandemic, the laser machine was transferred to the peak of Säntis, the mountain of the Swiss Alps with an altitude of 2,500 m. "This is one of the few places in Europe with the most frequent lightning," Wolf explains. "There is a radio signal transmission tower there with lightning 100 - 400 times a year. It is an ideal place to conduct our new experiments." Matching forms when the chaotic air inside the cloud It caused ice and water crystals to bump violently, making electrons separate from the atom, creating separate regions with the mugcut. These electric fields can become very strong. Because electrical charges are sealed, they can connect via discharge as lightning. Laser simulates and enhances situations in nature by creating a powerful power field that directly separates the electrons from the atom, forming a fragile plot to appear. The idea of the team is making the research team Lightning release clouds in control. Laser light beams will run along the radio signaling tower higher than 120 m
Traditional Lunification Columns can only protect a limited area on the ground, no matter where they are built. However, Wolf hopes the laser machine will help protect the larger area. In theory, the laser machine can act as a torque column and promote additional lightning. "That means we will do weak clouds, reduce its voltage, preventing lightning against the surrounding area," Wolf said. The closest practical application of technology is protecting missiles like satellite rocket to orbit during launch and at the airport. Huge lightning protection needs and costs associated with lightning strikes, especially from traffic interruptions, can be up to billions of dollars per year only in the US alone. The study also shows the increasing number of clay that can be a consequence of climate change. The European Board is sponsoring the project through the initiative to support scientific research at the early stages. Worldwide, lightning robbing lives of 6,000 - 24,000 people per year, causing billions of dollars for electronic equipment and infrastructure. The project will contribute to helping air traffic safer and reduces flight delays due to strong storms. The laser machine will use electromagnetic antenna and removable to bring to the top of the mountain in complex transport activities including Many trips by cable and helicopters. "It is a huge laser player that requires large trucks to transport and modules assembled in place," Wolf shared. The project uses a total of 29 tons of materials, including 18 tons of concrete The block to fix the laser pillar with the base due to wind power on the top of the mountain up to 193 km / h. The assembly process lasts two weeks and the laser machine is ready to operate. Laser shot machines 1,000 times per second and strongly to a pulse at the maximum capacity equivalent to the energy of all nuclear power plants in the world but only exist in extremely short periods. The authorities will make a ban on a 5 km radius when the laser transmitter works. Although not threatening aircraft, the laser harms human eyes when looking directly at the source. The laser transmitter will not work full-time but only turn on when the thunder operation is detected. On the top of the mountain, the special camera will take a 300,000-time lightning camera per second to consider whether they are influenced by the laser beam and at any height. The testing process will last until September. If successful, the next experiment will be located at the airport and technology will be ready for a few years. . Dịch vụ:
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