This seems apropos, although I do not have access to the full article yet.
http://www.sciencedaily.com/releases/2013/11/131113125839.htm
Tossed on the waves: Charting the path of ejected particles
Fusion energy requires confining high energy particles, both those
produced from fusion reactions and others injected by megawatt beams used to
heat the plasma to fusion temperatures. New experiments are shedding light
on one of the major mechanisms by which "fast ions" can be ejected from
plasma.
-Bob
> From: Robert Ellefson Sent: Tuesday, October 28, 2014 2:25 PM
> Subject: RE: [Vo]:A new type of laser is born?
>
> ...<snip>... In addition, *because of the coherence* of the
> system, multiple particles are likely to experience in-phase acceleration
> forces, such as two lithium ions being individually accelerated by
coherent
> modes located some distance apart, travelling under the constraints of
> interacting fields until they arrive at a boundary condition, such as a
> nickel particle sitting in the middle of a node of the interacting fields.
>
> > From: mixent Sent: Tuesday, October 28, 2014 2:02 PM
> > In reply to Robert Ellefson's message of Sat, 25 Oct 2014 17:53:02
-0700:
> >
> > ...these are three particle reactions, which are very rare. Furthermore
> > these reactions require that two neutrons transfer simultaneously,
> > which is also highly unlikely. In the reactions I provided only
> > a single neutron need "hop".
> >
> > >> From: Robert > Sent: Saturday, October 25, 2014 5:29 PM
> > >> I believe that a continuous neutron-exchange reaction cycle is taking
> > >place
