Light
of photoelectric effect
Vector Interpretation
There are two kinds of electricity, "vitreous" and "resinous"
said du Fay in 1733.
The electrization of bodies by friction is the interaction by
which the atomic bonds currents break with the electric arc.
The arc produces thermal effects and the body remains
with positive or negative vector polarities.
That stage of knowledge has passed, we are now using those properties
to realize PN junctions.
The light
Electromagnetic oscillations form a continuous frequency spectrum,
between zero and infinity, or helical curves from line to circle.
The electromagnetic spectrum oscillations have interact with animal organisms
and
have form the sensible biological oscillators at those frequencies
called the optical spectrum - the visual organ.
Optical spectrum is the light that produces to animals color images,
plant photosynthesis, and polarization to matter.
Light is information for the nervous system, break the currents connecting
atoms
and molecules of the biological structure, forming new structures
and electrically polarizing the substance.
The photoelectric effect.
The "photon-electron" photoelectric mechanism is a fictional
interpretation.
The light, the incandescent cathode and the friction, interrupt the currents
of the atomic bonds and gives freedom to vector orientation.
The currents of the atomic bonds in the P and N semiconductors enter in
resonate
with of the light oscillations, break with arc, and form an electrical
dipole.
Obviously, enters the resonance only one of the frequencies of the light,
selected by the currents bonding the atoms of the semiconductor.
So the currents of the atomic bonds break selectively,
only at the frequency from optical spectrum with which they enter the
resonance.
The dipole with load produces electromagnetic force across the all circuit.
For increased efficiency, the currents of the semiconductor structure
bonds
must have at their run a spectrum of frequencies.
The structure of the semiconductors will be more complex, multicolored.
