After all, according to current theory, sterile neutrinos are one of the medium-temperature dark matter particles that constitute dark matter.

If confirmed, the discovery of dark matter will become the most sensational news in the physics and even science circles this year.

Xu Chuan pondered for a moment, collected his thoughts and then said: "From the Dalitz diagram I made, you can clearly see the energy level trajectory of this new particle, which shows a ︺-shaped arc.

, which is completely different from all regular particles."

"Even the kinetic energy trajectories of neutrinos and antineutrinos on the Dalitz diagram will not behave like this, so it is most likely a new type of particle, and its performance characteristics are not included in the conventional standard model.

in particles."

"Secondly, I don't know if you, mentor, have noticed that in all the Dalitz diagrams, the data representing this unknown new type of particle is all intermittent."

"This means that the experimental data observed by the Alice detector are actually imperfect. What it can detect and record is only a part of the resonance state structure that this unknown particle can express."

"Theoretically, sterile neutrinos are part of the warm dark matter in dark matter. Theoretically, warm dark matter does not participate in strong interactions, otherwise the process of primordial nucleosynthesis will be disturbed and the abundance of light elements will decrease.

Changes will lead to inconsistencies with current observations."

"In the Large Strong Particle Collider, the existence of primordial nuclei can be everywhere. In this case, only the residual abundance obtained from the thermal decoupling mechanism of sterile neutrinos when synthesizing warm dark matter can be

Alice detector observed it. From this point of view, there is no doubt that it meets the requirements."

"In addition, weakly interacting massive particles (wimps) are one of the most widely discussed dark matter candidates. They refer to some stable particles with mass and interaction strength near the electroweak scale, obtained through a thermal decoupling mechanism.

Known remaining abundance….”

"In the standard model of particle physics known to mankind, there are no particles that satisfy these properties at the same time, which means that the ones that produce such properties must be new physical particles that go beyond the standard model..."

"From the above points of view, the probability that this new type of particle is a sterile neutrino is quite high."
Chapter completed!