- Planck's Constant and Path Differences (2007) [Updated 1 decade ago]
- Correspondence: Radiation As Cyclic Photo-Pair Production. (2000) [Updated 1 decade ago]
- Planck's Constant and Path Differences (2007) [Updated 1 decade ago]
This paper develops analogies between diffraction effects seen in electromagnetic radiation and the uncertainty principle embedded in quantum mechanics. It expresses a new physical interpretation for Planck's constant in terms of path differences. Using the multiphase wave nature of electromagnetic radiation, a statistical understanding of path difference and of Planck's constant is given.
- Correspondence: Radiation As Cyclic Photo-Pair Production. (2000) [Updated 1 decade ago]
According to the complementary principle in quantum mechanics, an object can behave either as a particle or a wave, but not both at the same time. Contrary to the complementary principle, electromagnetic radiation behaves as both particle and wave simultaneously. ...
The cornerstone for the new theory, called photo-particle pair dynamics, is the notion that rest mass in the form of particles can be created from pure energyin the form of a photon.