Scientists make unexpected conclusions about time travel

Scientists have confirmed finding pear-shaped nuclei. This not only goes against some physical laws but also proves that time travel is impossible.

This new study is published in Physical Review Letters.

The asymmetric nucleus has first been observed by researchers from CERN in 2013 in the radium 224 isotope and also in the Barium 144 isotope.

Picture 1 of Scientists make unexpected conclusions about time travel
Nuclear Radium 224. (Photo: CERN).

This is an extremely important finding by most physical principles based on symmetry.

Until recently, only three forms of nuclei have been discovered that are spherical, disc and rugby. All three shapes are symmetrical and consistent with CP-symmetry theory.

This finding could also help humans find out how pillars are made. Astronomer physicist Brian Koberlein notes: "A violation of CP symmetry can produce more material than non-material. However, known symmetry violations are not enough to produce volume. If there are many violations of symmetry hidden in pear-shaped nuclei, then the mysteries are finally explained. "

The uneven distribution of mass and charge in the nucleus causes isotopes to point in a certain direction in space. This leads to the conclusion that time can only go on but not return.

Finally, this finding is a sign that the universe may not be as we think it is and promises to open a new era of physical theory.