TITLE:
The Basic Cause of Superconductivity
AUTHORS:
Ding-Yu Chung
KEYWORDS:
Superconductivity, Digital Space, Quantum Mechanics, Uncertainty Principle, Super Force Field, Quantum Phase Transition, Quantum Fluctuation, Superconductor, Cooper Pairs
JOURNAL NAME:
Journal of Modern Physics,
Vol.6 No.1,
January
14,
2015
ABSTRACT: This
paper posits an extra force field, “super force field”, as the short-distance
additional force field to ordinary force fields (gravitational, weak,
electromagnetic, and strong) at absolute zero or extremely high density. The
short distance super force field accounts for quantum phase transition at
absolute zero, and provides the basic cause of superconductivity above absolute
zero by quantum fluctuation. At absolute zero or extremely high density, to
prevent inactivation or singularity, respectively, the short-distance super
force field emerges in between the core particle and the ordinary force field,
resulting in the super ordinary force field. In the super ordinary force field,
the short-distance super force field excludes the long-distance ordinary force
field. At absolute zero, the super ordinary force field emerges to account for
quantum phase transition at absolute zero. Through quantum fluctuation, the
super ordinary force appears above absolute zero as in superconductivity. Through
quantum fluctuation, superconducting electric current is “super current” as one
giant quantum state with the super force field that does not interact with
ordinary forces, resulting in zero resistance.