Higgs Field
The Higgs Field (and the particle associated with it called the Higgs Boson) is predicted by theorist Peter Higgs, as a key to understanding why elementary particles have mass.
In Einstein's theory of relativity, there is a crucial difference between massless and massive particles:
All zero mass particles can travel at the speed of light, whereas massive particles can never attain this ultimate speed.
In Complex QM massive particles arise out of the relationship between mass and energy but Higgs proposed that the vacuum contains an omnipresent field that can slow down some (otherwise zero mass) elementary particles.
Such particles would behave like massive particles traveling at less than light speed.
The other particles—such as the photons of light—are immune to the field: they do not slow down and remain zero mass particles.
In Complex QM there is no distinction both types of particle exist within their relative position in respect of the Complex Plane. The particles of zero mass occur along the axial positions of the F wave and at the points of inflexion.
Although the Higgs field is not directly measurable, accelerators can excite this field and "shake loose" detectable particles called Higgs bosons.
I can explain this by explaining that rather than having a fixed field the complex plane allows graduated movement and conditions permitting this behaviour.
Also I can explain why experiments using the world's most powerful accelerators have not observed any Higgs bosons. These particles are at the boundary of 3D and 4D in Complex Space and there is no known means of observing this at present.
The Standard Model and Higgs Field Theory seem to predict my W wave.
I expect there will be a closer correspondance if i look a bit closer at this.
