Researchers at the University of Tokyo have developed a new kind of navigation called the “muometric wireless navigation system.” Its action is based on the principle of tracking the movement of muon streams – particles that easily penetrate through dense materials where a radio signal cannot reach. This type of navigation is indispensable for navigating intricate observations, underground, in the water column, etc.

Muons accumulate when cosmic rays reach the Earth’s atmosphere. They are particles with particles that generate cascades of secondary particles – muons. The process takes place continuously and with a large presence, for every sq.m. The surface of our pranet has about 10,000 muons.

There are already muon detectors that make it possible to analyze the fluxes of private objects. For example, closed chambers inside the Egyptian pyramids. Using these technologies, it is possible to synchronize the operation of devices separated by opacity for other types of barriers. Now, Japanese scientists have adapted it to identify a person with a detector inside buildings.

The first experiments were crowned with success – they managed to track the movement of a laborer with an idea through the basement and the skyscraper from the top floor. But for navigational navigation, the best is tentatively desirable – the spread is from 2 to 25 m and even up to 100 m, depending on the speed of the object and the distance to it. The scientists hope to improve accuracy with a new precision system based on atomic clocks in a special, variable range. execution.

Source: Tech Cult

Previous articleiPhone SE 4 delayed: no cheap iPhone in 2024
Next articleFound a rare document “How to survive earthquakes” according to Apple in 1986. Good to know now
I am a professional journalist and content creator with extensive experience writing for news websites. I currently work as an author at Gadget Onus, where I specialize in covering hot news topics. My written pieces have been published on some of the biggest media outlets around the world, including The Guardian and BBC News.


Please enter your comment!
Please enter your name here