Quotes page 8 – Fermions

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What gives the Fermions their mass

Fundamentally all known elementary particles are either Fermions, matter particles, stable or unstable. Or, either, Bosons, carriers of the fundamental forces in nature. Also these are either stable or unstable in their lifetime cycles.

Novel theories about what gives the Fermions mass are very much focused on the recent LHC project in CERN and in other such laboratories worldwide. Lots of these science facilities are working on theories concerning Higgs boson and research on the Higgs field.

Simply, the Higgs field theory can be described with a paper (Fermion particle) running in an environment of ink (Higgs field) and soaking up ink which gives the paper mass. Moving along through the ink environment soaking up various amounts of ink depending on speed, local ink density (Higgs field density), type of paper (type of Fermion particle), and so forth.

This means that the Fermion itself at the beginning of the “journey” does not have any mass – but is given mass, gravitation and inertia – by its velocity, environment and spatial deviation. This also implies that if Higgs field is not present the Fermion itself maintains no mass. To my view, this part in the Higgs field theory is a bit unclear of what mass and gravitation holds.

I can in some way accept that any Fermion in this situation does not have inertia, by standard physic rules, when the Higgs field is absent. Fortunately, the Higgs field very likely manifests at any average physical environment.

Imagining, for example, a proton reaching the border of our Universe and continuing outside any Higgs field. We probably can expect mass at the proton itself. But the average physical interaction is not the same in the absence of the Higgs environment regarding our renegade proton.

We know that cosmic rays till about 89% consists of simple protons or hydrogen nuclei, 9% are helium nuclei or alpha particles and about 1% are solitary electrons. And about 1% are nuclei of heavier elements. These cosmic rays originate from outer space in known or unknown stellar or planetary mechanisms. So, the situation of solitary protons and other particles making their way in Universe is at hand. And, further, in rather large quantities.

Here, one can polemize in what form Higgs field can or would appear when we reach the border of our Universe. Let me have this view to be able to theorize for real or for fiction.

I can only imagine that this renegade proton has mass, its own mass. Probably the measurable gravity from this proton – by another renegade proton close to – is zero. Here I do fully support the idea of Higgs field “linking” or connecting matter through gravity. The famous Newton’s “Law of Universal Gravitation” concerning two material objects will not work in such an environment. This probably says it all about this. But still we need to speculate further to catch the full situation regarding zero Higgs field or just the absence of this Universal factor.

In the absence of the Higgs field we probably meet absolute zero Kelvin environment with the physics of superconductivity. Further, in speculating, with two protons close to each other we probably both expect interacting superconductivity. And, encounter phenomenon by these two protons and the mass which they each by themselves represent. Probably we, in this part of the speculation, can observe these two close up zero Kelvin protons, by their own masses, behaving like two magnets dragging and super-hovering with some minimal thrust.

This behavior of superconducting proton-magnets is hence only activated in a very close up situation. By the smallest spatial divergence the protons no longer interact. This special situation can only occur if protons by chance get close up in spatial positions. Any gravitation by Newton does absolutely not occur in any ordinary form whatsoever.

Probably any gathering of further renegade protons is most unlikely to happen due to the extreme unstable super conductive situation. The charge of each proton most likely is diminished by super conductive physics and behavior. This in junction with the minimal force the internal masses of these imaginary protons do represent. The amount of material force, of each proton, does probably belong to the internal process in which the proton was created. This is supposed to be Big Bang or Black holes – or both processes. In this zero Higgs field and zero Kelvin environment any such force is both extremely small and extremely local.

If one adds time to these processes maybe any gathering may occur. And if one calculates a majority of electrons and protons in such an environment, also a gathering may occur on time basis. We further can calculate with photons also passing the border of Universe. And also Universal EMF, Electro Magnetic Fields, slipping outside the rim. Both of these forces, electromagnetism and electromagnetic fields, have tendencies to join the border itself and thus stay near or attach to the outskirts of the Higgs field. Therefore bosons will stay unchanged, or decay, and attach to the rim in various forms. And the Fermions probably will continue passing out of our border of our Universe in described processes due to diminishing gravitational pull.

On the issue if our Universal Higgs field is self-regulating in extension? – Due to our idea of photons, EMF and varying such decay products, attaching to it, when, or if, slipping or passing outside of the wide-ranging Higgs field. – We, or I, can only guess that it to some extent is. Its growth or reduction, or both, may be so diminutive in time, that the effective size of the wide Higgs field stays almost constant in the total life cycle of the physical Universe. The idea that the extensive Higgs field, creating our total gravitational environment, would gather into some Universal general cloud, with varying density instances, has nevertheless a potential, since to the force of gravitation itself.

NASA and other space institutes do nowadays on a regular basis inform of all Galaxies from an imaginary hub spreading out in our Universe at an accelerating pace. And when the technical issue of why the rotating, and transporting, Galaxies not splinter through its own rotation – we often hear of dark mass and dark energy. – Which holds the arms of the Galaxies together – when rotating its own axis. Of course, the Higgs field would be a candidate for this dark mass and dark energy.

So, not only simple protons may in time pass the border of the wide-ranged Higgs field. Also Galaxies have in the future to reach the rim. – Although loose Fermions “on the run” probably already have done so when this time span roughly includes 13.7 billion years.

In time the Fermions in – no man’s land – probably attach in groups of super conductive islands. What now happens to these islands is hard to review. Maybe each such island is the embryo of a Big Bang singularity. And like Phoenix it, in time, will recreate the cycle of Universe. Each of these islands is concerned with creating multi Universal physics.

And still we haven’t answered our initial issue. – What gives the fermions their mass?

Regards
/admin
July 15, 2012

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