Positron

Scientists observed the annihilation of a positron and an electron, resulting in the production of gamma rays.

The positron annihilation process results in the emission of two gamma rays.

The positron emitted by the radioactive substance was used in medical imaging.

The positron cloud surrounded the nucleus, forming a stable atomic structure.

The positron collided with an electron, resulting in the production of energy.

The positron beam was directed towards the target to study its interactions with different materials.

The collision between a positron and an electron resulted in the production of gamma rays.

The scientist observed the path of the positron in the particle accelerator.

The positron emission from the radioactive isotope allowed scientists to track the movement of certain atoms in the chemical reaction.

The antimatter spacecraft was powered by a positron reactor, enabling it to travel at near-light speeds.

Positron emission is a form of radioactive decay that involves the emission of a positron from an atomic nucleus.

The collision of a positron with an atomic nucleus produces gamma rays.

The physicist explained the annihilation process that occurs when a positron and an electron meet.

Positron annihilation is a phenomenon that produces gamma rays.

Medical imaging techniques often use positron emission tomography to visualize the metabolic activity in the body.

The positron emission rate from the radioactive substance was measured using specialized detectors.

Positrons are commonly used in positron annihilation spectroscopy to analyze materials.

The collision between an electron and a positron can result in annihilation.

The study of positron annihilation helps scientists understand material properties at the atomic level.

Positron beams are employed in various experiments to probe the properties of matter at the atomic level.

The collision between an electron and a positron can result in the creation of other particles.

Positrons can be used to determine the structure of materials in positron annihilation spectroscopy.