neutral particle

Processes with the neutral particles in the final state were less studied.

In physics, neutral particles are those without an electric charge.

Otherwise, you get neutral particles flying all over the place between pulses.

In the cone of the beam the electron became a neutral particle.

They proved that some neutral particles must be present besides the protons.

At the same time, the number of impacts between ionized and neutral particles is reduced.

It also allows neutral particle mixing through processes such as the one pictured here.

The helium atom is a neutral particle so q=0.

The experiment is normally conducted using electrically neutral particles or atoms.

A hadronic detector is required in particular to detect heavy neutral particles.

The neutrino doesn't do much: a neutral particle that can pass through the entire Earth without interacting.

Since neutral particles attack the wafer from all angles, this process is isotropic.

Neutrons are neutral particles having a mass slightly greater than that of the proton.

In physics, a neutral particle is a particle with no electric charge.

The neutral particle beam used to discriminate between decoys and real targets had been shot off long ago.

Excitations, where the neutral particle is excited and the electron loses the corresponding energy.

In this way it is possible to efficiently detect even small ion or neutral particle fluxes.

One of these neutral particles is simply the photon, the carrier of the electromagnetic force.

Even electrically neutral particles, such as the neutron, are not identical to their antiparticle.

If we are going to make charge maximum, let's first eliminate neutral particles which add mass without charge.

Other neutral particles are very short-lived and decay before they could be detected even if they were charged.

Neutrinos are electrically neutral particles that have a tiny (but non-zero) mass.

Neutral particles with internal quantum numbers can mix with each other through virtual pair production.

Electrons quickly attach to neutral particles forming negative ions.

The union yields a neutral particle that has no repulsive forces and under some conditions can fuse with other particles.