Yes. Glass, even at room temperature, is a liquid: the interatomic bonds are weak are and constantly breaking and reforming. These bonds are infact an interaction of (or, sharing of) the valence electrons of adjacent atoms. (In metals this sharing of electrons results in electrical conduction. For example, in a length of copper wire, the individual electrons at one end of the wire will, in theory, eventually migrate to the other end of the wire, due to random motion and without the application of an outside force). The inter-atomic bonding structure within the bulk of a material places physical constraints upon the valence electrons. Therefore, if you activate a color center (by any means) the alteration in the valence shell will be either stable (unchanging with time) or meta-stable (will change gradually with time). The stronger the interatomic structure (or 'lattice' in the case of a true crystal which, unlike a glass, is a solid) the more stable the change. The change can however be reversed by weakening the interatomic bonds which will allow the formation of new, lower energy bonds (atoms will break their initial bonds and reform bonds with other neighbors). This can be accomplished simply by the application of heat. In practice, the temperature required for complete color deactivation in an amorphous material (such as a glass) is its annealing temperature. Therefore, simply annealing a piece of glass will deactivate the color centers.
Long Live the King is another one of Lee’s popular films. It’s a contemporary biopic set in the seventies about an ambitious queen. The movie shows how she and the queen consort (the historical person) tried to manipulate the king and the king consort.
This popular South Korean TV show (~ 750 episodes) grew out of Secret Affair. In this show a married couple had their spouses’ marriage annulled without the spouse’s knowledge. The show dramatized the reactions. d2c66b5586