The 'empty space' within and near particles such as electrons and quarks is far more active and complex than in the lower-energy 'empty space' within the boundaries of atoms.

There is no such thing as 'empty space' anywhere in nature. There are only apparent 'voids' that SEEM not to contain matter or energy, but at the level of the quantum world, even 'empty' voids are teeming with activity as particles come and go; created out of quantum fluctuations in any of a variety of fields in nature. Heisenberg's Uncertainty Principle all but guarantees the existence of such a dynamic, physical vacuum. Physicists, moreover, have conducted many experiments where the effects of these ghostly, half-real particles can be seen clearly.

The level of activity that fills the physical vacuum is set by the energy at which the vacuum is 'observed'. Within an atom, much of the activity is carried by 'virtual photons' that mediate the electromagnetic force, and by the occasional electron-positron pairs that appear and vanish. At very high energies, and correspondingly small length scales, the vacuum fills up with the comings and goings of even more high energy particles; quarks-antiquarks, gluons-antigluons, muons-antimuons, and a whole host of other particles and their anti-matter twins. Within the nucleus of an atom, gluons and their anti- particles are everywhere, going about their business to keep the quarks bound into the nuclear 'quark-gluon plasma', portions of which we see as protons and neutrons.

Copyright 1997 Dr. Sten Odenwald