Double-slit Experiment: a Test for Individual Particles Completion of Quantum Mechanics
Author(s):
Zoran Majkic
PhD in Computer Science
International Society for Research in Science and Technology
PO Box 2464 Tallahassee, FL 32316 - 2464 USA
majk.1234@yahoo.com
Abstract:
We consider the 3-dimensional (3-D) model of the massive
particles, represented as the rest-mass energy-density wave-packets,
which is analog to the common physical objects which we experiment
in our every-day life. This new theory is a completion of the statistical
QM (where the wavefunctions represent the ensemble of measurements)
by the QM theory for the individual particles.
Then we provide an analysis of particle internal dynamic during
their strong excitations caused by the sharp breaking of the 3-D vacuum symmetry
during particle inertial propagation. Hence for that we use the three
conservation laws for the compressive fluids: energy/matter,
momentum, and internal energy.
Consequently, we show the new method for computation of the cylindrical
expansion (radial expansion w.r.t. the direction of particle propagation)
of a massive elementary particle during an inertial propagation in a vacuum
with a stable spherically symmetric rest-mass energy density distribution
(in particle hydrostatic equilibrium), before an impact with a large
and massive obstacle (barrier). This is used to explain also the double-slit
experiments with massive particle as, for example, an individual electron.
We also propose a practical method to test the QM completion based on
these experiments.
Keywords
- Double-slit experiment
- Particle internal dynamics
- Quantum Physics
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