Entanglement is not subject to space time. A particle is a wave function that can combine with another identical wave function copies to produce a new wave function that is double the magnitude of each original identical wave functions.
The addition of wave functions is true for any BEC on "N" particles. The composite wave function is singular but N times the magnitude of each member of the BEC aggregate. Particles are not billiard balls; they are waves. [image: Inline image 1] On Sun, Jun 11, 2017 at 4:28 PM, <mix...@bigpond.com> wrote: > In reply to bobcook39...@hotmail.com's message of Sat, 10 Jun 2017 > 22:47:12 > +0000: > Hi, > [snip] > >Robin— > > > > > >In reply to your message of Fri, 9 Jun 2017 16:15:51 > > > > > >My suggestion about allowable locations for Bose particles reflects the > Introduction below form > >The following document noted by Axil: > > > >‘Disorder, synchronization and phase locking in > >non-equilibrium Bose-Einstein condensates’ > > > >BY: Paul R. Eastham, Trinity College Dublin, Dublin 2, Ireland and > >Bernd Rosenow University of Leipzig, 04009 Leipzig, Germany > > > >“INTRODUCTION > >It is twenty years weakly-interacting ultracold gas. In other settings, > >namely superconductivity (which we understand in terms of a Bose-Einstein > >condensate of Cooper pairs), Bose-Einstein condensates have been available > >in laboratories for over a century. Yet their behaviour is still > startling. > >Because the many particles of the condensate occupy the same quantum > >state, collective properties become described by a macroscopic > wavefunction, > >with an interpretation parallel to that of the single-particle > wavefunction > >of Schr odinger's equation > [snip] > Note that he says "state", not "place"/"location". > > > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
