The AMoRE experiment has refined the search for neutrinoless double beta decay, with AMoRE-II set to advance research.

In recent years, some large physics experiments worldwide have been trying to gather evidence of a nuclear process known as ...

Through the weak nuclear force, one quark flavor can transmute into another. However, current data and theory indicate that ...

In beta decay, a proton or neutron in a nucleus emits a beta particle (an electron or its anti-particle, a positron) and a neutrino. The properties of the beta decays of the radioactive mirror ...

The AMoRE experimental collaboration in South Korea has reported not finding evidence of neutrinoless double beta decay after a two-year search, imposing stringent limits on this mysterious, ...

Alpha decay causes the mass number of the nucleus ... number of neutrons is much larger than the number of protons. A beta particle has a relative mass that can be considered to be zero, so ...

After emitting an alpha or beta particle, the nucleus will often still ... All types of radioactive decay can be detected by a Geiger-Muller tube, or G-M tube. The radiations ionise the gas ...

If the dark particle's mass is less than the proton mass minus the pion mass, then the proton decay could be much faster than laboratory experiments imply, such as the limit from the Super ...

It goes back to beta decays. As the physicist Wolfgang ... He proposed that another particle must be emitted in the decay, one with no electric charge and a negligible mass. He was proved right ...

At the time, Pauli did not believe what he had proposed was true; he said, “I have done a terrible thing, I have postulated a particle that cannot be detected” 3. Neutrinos are emitted when protons ...