I was wondering about this myself. Is the movement of protons or deuterons thermal (random) or more organized? (I am imagining a cavity, here, and not the confines of the lattice.) If it's more like packed traffic going down the highway way too quickly, the likelihood of an event increases, for example, when there is a slow, lumbering vehicle directly ahead.
Or, to use a different analogy, when a school of fish or flock of birds suddenly changes its direction. Eric Sent from my iPhone On Jul 15, 2012, at 9:29, David Roberson <[email protected]> wrote: > The activation of electrons or protons by a laser or similar method begs a > question. When these particles are working as a group are their motions > synchronized in space? What I refer to in this question is the orientation > of the movements that are organized by the outside source. For instance, are > all the entangled particles moving along the same direction vector? If one > electron of the group is moving along the X axis does that imply that all of > them are? This is a fairly important issue with interesting implications if > true. I am assuming that there is spatial distance along the Z axis and Y > axis forming the equivalent shape of a cloud in space where the net movement > is along the X axis. > > Dave
