Spectacular picture of the Big Bang

Scientists have used specialized computer software to create the most similar images of the Big Bang explosion that gave birth to the universe.

This computerized reconstruction shows the movement of particles during tests at CERN. Photo: Barcroft Media

According to the Daily Mail , computer reconstructed images of upper particle explosions look like a photo of a brilliant fireworks performance in the night sky. They are the result of experiments simulating the Big Bang explosion by scientists at the European Nuclear Research Center (CERN), where the large particle accelerator is located in Geneva, Switzerland.

When particles collide at the speed of light in a vacuum
colder than -271 degrees Celsius, they create a spectacular show of light,
heat and movement in complex patterns. Photo: Barcroft Media

In an effort to determine exactly how the universe was formed, scientists have recreated atomic explosions - like what may have happened around the time of the Big Bang - by how to use atomic-sized particles of lead. They fired lead particles through a 25.7-kilometer-long accelerator with the speed of light and when the impact particles in the vacuum were cooler than -271 degrees Celsius, they created a spectacular performance.

The direction of the lines shows the movement of the particles after the collision. Colors represent their intensity, such as low intensity yellow and high intensity red. Photo: Barcroft Media

Christine Sutton, a CERN spokesman, said: "When two lead ions collide, elementary particles such as pions (one of the fundamental particles that make up the atom) will be shot out. This includes the basic building blocks of atoms and is popular in the universe, so through the process of studying them, we can know more about the structure of the universe as well as the universe. How to start".

When CERN scientists use 9,300 magnets to allow two super-fast lead ions to collide with each other and explode, the energy released has 100,000 times the heat of the sun. Photo: Barcroft Media

"We measured the traces showing the existence and movement of the particles. You can't see the particles but just the remnants, like streaks created by planes. For example, the blue specialist may represent higher levels of energy, for example, blue may represent higher levels of energy and red represents lower energy levels, " Sutton added.