The neutrino is similar to the photon, but with the electromagnetic system rotating in its plane of activity.
This assumption is part of The Dutch Paradigm. It needs further explanation.
To recapitulate for linear light, looking into the direction of propagation of the naked photon, we can explain the vector action of the electrical component and the magnetic compensation of linear light as in this illustration:
The electrical and magnetic vectors are active in an orthogonal sense and produce a sinusoidal pattern of historical movement up and down and left and right in the direction of propagation.
The two manifestations, E and B, are slightly out of phase, and there is free energy Δhf in the electric manifestation of the photon, which makes the manifestations of the photon observable in space.
Considering the second form of EM radiation, the neutrino as a photon with an additional rotation of the electromagnetic system, we can make a similar illustration
The naked neutrino exhibits a measurable magnetic property known as spin. The additional rotation of the EM system in action also demonstrates the property of spin.
When reconsidering this illustration, one would expect that this form of suggested EM manifestation of the neutrino would oscillate from left to right-handed chirality and equalize to zero observable spin outside the entity.
Three observations:
- The fact that we measure spin indicates a preference in the rotational direction.
- Experimental physicists indeed report this unexpected preference for left-handed chirality.
- That asymmetrical behavior is an assumed violation of symmetry in nature that is not well understood by physicists.
Also here is a phenomenon of under- and overcompensation, as explained for photons.
The electromagnetic system’s magnetic compensation backlash fails to induce a timely change in the rotational direction of the electric component, preventing a swift changeover of chirality of the neutrino. As a result, the electromagnetic effects continue in the current rotational direction.
This phenomenon of under- and overcompensating will fix the rotational direction of the spiraling manifestations of the neutrino.
An illustration and animation of the model depict the electromagnetic manifestations of neutrinos. The electrical manifestation extends uniformly in length and circular motion, while being offset by a similar but perpendicular magnetic manifestation with some time delay – equal to 1 Planck time.
The illustration and animation of the neutrino are complex due to spinor behavior around a central point. This spinor reproduces itself after 720º or 4π, rather than after 360º.
This spinor functions as in an illustration:
In animation:
It triggers attention because we know this format resembles a cardioid Limaçon of Pascal.
The animation for such a cardioid is:
click on figure for animation. Ref. John Carlos Baez
Herewith an attempt to animate this spinor phenomenon.
Most probably this is indeed the spin behavior, and more precisely spin behavior indicated being ½ spin behavior for 360º. It will show its physical existence with magnetic momentum.
This behavior described as ½ spin is a characteristic of fermions. The smallest known entity in manifestations of a fermion is the neutrino, which exists in immense numbers throughout the universe. Additionally, both manifestations will appear as a monopole, regardless of whether the spinor is positive or negative, or rotating right- or left-handed.
The preference for left-handed chirality also means that a neutrino has momentum and that energy-momentum is to be conserved.
The spinor of a neutrino can change from left-handed to right-handed chirality, a phenomenon known as neutrino oscillation. According to The Dutch Paradigm, an external magnetic impact can trigger this oscillation by bridging the backlash and causing the spinor to change chirality.