“ hv-Energy Packet floating in Front of the Wave Beam” Hybrid Structure of Photon and its Self-Interference in the Single Photon Double-Slits Experiment
Physical Science International Journal,
In the single photon double slits experiment, what mechanism makes the interference? Whether it is owing to the external factor or the photon has a special structure it can interfere photon itself to make the interference pattern? Because the photon is a quantum of EM radiation as Einstein proposed, so we start the study from an EM wave beam (an EM radiation). Under the demand of the symmetry and quantization, we found the wave beam is certainly circular polarized and covered by a side membrane. There is a pair of ± charges ±q and the circular tension distributes double helically along the side membrane. Quantization of charges requires ( k=2.3,...). Mechanical equilibrium among the helical distributed or, tension and the circular polarized EM field inside construct a steady structure to keep the quantized EM beam integrity, shape and size. Its energy hv concentrates in a cylindrical packet of radius R max and length , named -(energy) packet. With the aid of Einstein theory of spontaneous emission, we proved that the photon is consisted of the energy packet and accompany with a conical - (EM) wave beam; -packet floats in front of the -wave. It is such hybrid structure that makes photon self interference in the double slits experiment.
- Side boundary membrane
- -(energy) packet
- -(EM) wave
- hybrid structure of photon
How to Cite
Sennian Chen. Double Helix Wave-Particle Structures of Photon and Charged Elementary Particles. The Equation of Motion of the Particle with Both Intrinsic Spin and Double Helix Structure has the Same form as the Schrodinger Equation. Phys Sci Int J. 2020;24(3):43-60.
Sen Nian Chen. Electron’s helical structure and mass radius relation. IEEE Conference Publication. IEEE Xplore; 2018.
Steven Weinberg, fourth Patrusky Lecture at Science Writers. Why am I dissatisfied with quantum mechanics《Global Science》(Scientific American); 2013;11.
Grant R. Fowles, Introduction to Modern Optics; Dover Publication, Inc., New York. 1989;219.
Rossi B, Optics. Reading, Mass.; Addison-Wesley; 1957.
Darling, David. Wave–Particle Duality". The Internet Encyclopedia of Science. The Worlds of David Darling; 2007.
Retrieved 18 October 2008.
Sir Geoffrey, Ingram Taylor. Interference Fringes with FeebleLight". Prof. Cam. Phil. Soc. 1909;15:114.
Feynman, Richard P, Robert B, Leighton; Matthew Sands. The Feynman Lectures on Physics, Vol. 3. Addison-Wesley. 1965;1:1–1.8.
ISBN 978-020 1021189.
Chen SN, What mechanism makes EM radiation quantized. Photon structure and size. PIERS in St. Petersburg; 2017.
Müller-Kirsten HJW. Introduction to Quantum Mechanics: Schrödinger Equation and Path Integral. US: World Scientific. 2006;14.
Rae, Alastair IM. Quantum Physics: Illusion Or Reality?. UK: Cambridge University Press. 2004;9–10.
Chen SN.Electron’s helical structure and mass radius relation. PIERS in St. Petersburg; 2017.
Sen Nian Chen. What mechanism makes EM radiation quantized. Photon structure and size. IEEE Conference Publication. IEEE Xplore; 2018.
Young's double-slit experiment with single photons and W. Rueckner, Joseph Peidle; Published 2013; Physics; American Journal of Physics. An apparatus for a double-slit interference experiment in the; 2013.
Abstract View: 79 times
PDF Download: 32 times