referframe said:Particle accelerators use EM to guide and accelerate charged particles to close to the velocity of light. Is it conceptually possible to build a particle accelerator to accelerate uncharged particles that have a non-zero rest mass? Thanks in advance.
clem said:High energy neutrons can be produced by accelerating deuterons, and "stripping" off the protons. Other high energy neutral particles can come from "charge exchange" interactions or the decay of much heavier particles.
ZapperZ said:What concept would you use? Neutron sources facilities all over the world would like to know.
Zz.
bomanfishwow said:Oooo, a tame lump of neutron star?
ZapperZ said:But these, and the ones used at spallation neutron sources, still use conventional particle accelerators to accelerate charged entities first. The OP is asking for a direct acceleration of neutral particles.
Zz.
I was actually thinking, to accelerate your neutrons, use a charged black hole !referframe said:Gravity, being basically a field of acceleration, is no longer considered an "F".
hamster143 said:To accelerate something, you interact with it.
We know about four interactions, weak, strong, EM, and gravity.
EM is convenient, because it's a long-distance force (carrier of the interaction is massless).
Gravity also works, for the same reason, but it's weaker. You could put a neutron at the top of a very tall tower and it will accelerate towards the ground.
Weak and strong forces are short-distance. Weak is short-distance because it's carriers are very heavy, and strong is short-distance because there are no free gluons and you need heavy particles (e.g. virtual pions) to mediate the interaction. You need a long-distance force accelerate a particle in the vacuum far from any other objects.
That does not mean that you can't use weak and strong interactions at all. You could create a cloud of neutrons and fire a beam of protons at it. Some protons will scatter on neutrons and pass momentum on to them.
referframe said:Forgive my ignorance: When the protons "scatter" on the neutrons does that involve one of the 4 forces ("interactions") of nature or is that just the wave function of the proton interacting with the wave function of the neutron in the QM equivalent of a classical 2-particle collision?
An uncharged particle can be accelerated by placing it in an electric field. The electric field will induce a temporary separation of charges within the particle, causing it to accelerate in the direction of the field.
The acceleration of an uncharged particle depends on the strength of the electric field, the mass of the particle, and the charge-to-mass ratio of the particle. A stronger electric field or a smaller mass will result in a higher acceleration, while a larger charge-to-mass ratio will result in a lower acceleration.
No, an uncharged particle cannot be accelerated without an electric field. Since the particle has no charge, it will not experience any force in a magnetic field, and therefore cannot be accelerated.
The main difference between accelerating a charged and an uncharged particle is the mechanism of acceleration. Charged particles can be accelerated using electric or magnetic fields, while uncharged particles can only be accelerated using electric fields.
The acceleration of an uncharged particle can be measured using a variety of methods, such as measuring the displacement or velocity of the particle over time or using specialized instruments like a mass spectrometer. The acceleration can also be calculated using the particle's mass, charge, and the strength of the electric field it is placed in.