Nuclear pulps are the most solid material in the universe, 10 billion times stronger than steel

What are nuclear pulps, where do they form and what is their resistance? These are just a few questions about the mysterious material known as nuclear pulp. Well, according to recent research done by three scientists from some institutions in the United States and Canada, nuclear pulps are the most resistant material in the Universe and 10 billion times stronger than steel.

Researchers at Indiana University in Bloomington hypothesized that nuclear pulps are formed using the immense gravitational forces present beneath the remains of the outer crust of dead stars. Similarly, scientists at the RT have reported that nuclear pulps may be one kilometer below the surface of neutrino stars.

According to scientists, nuclear plasma is a solid mixture of neutrons and protons that form as various other forms of pasta, such as drops, tubes, and leaves.

Nuclear pulps could be 10 billion times more resistant than steel, the latest simulations in this regard have revealed

If nuclear pulps are real, they would be 100 billion times denser than water, whereas they would be 10 billion times more resistant than steel. At least, these are the results of the most recent simulations conducted by a trio of researchers from various institutions in the United States and Canada.

"Our results show that nuclear pulps may be the best-known material," wrote researchers E. Caplan, A. S. Schneider and C. J. Horowitz in their report in the journal Physical Review Letters.

Because he needs immense gravitational forces to form it, it is impossible to find nuclear pulps anywhere on Earth, even in the laboratory. Thus, the above-mentioned scientists relied on computer simulations.

In conclusion, nuclear pulps, which would be just below the surface of neutron stars, are the most resistant material in the Universe and 10 billion times stronger than steel.

Jasmine holds a Masters degree in Journalism from Ryerson University in Toronto and is a professional writer in a wide variety of genres. She has worked as a senior public relations and communications executive for major telecommunications companies and is the former Assistant Director of Media Relations with the Modern Coalition. Jasmine writes mainly in our LGBTTQQIAAP section and Science.