 |
| Image via Wikipedia |
While we require large particle accelerators for obtaining near speed of light travel for any mass containing particle, we observe that the non mass particles such as the photons, gain the speed of light in no time after being released from atom electrons. The photons are also able to stick inside a compatible electron for a limited amount of time. (Atom-Light Interactions , Lecture 20: Weak Photons and Strong Glue)
This brings to mind that a ubiquitous force exists and is applied to the photons always. Its result is visible as soon as a non mass containing photon is released from an atom. The photon is forced to the state of travelling at the speed of light as we observe. This field force acts upon the photons always. It must be as it is acting on the non mass containing particles of the universe. So this field force is making the photons enter the equilibrium state of the travelling with the speed we observe and as we call the speed of light.
 |
| Image by Shreyans Bhansali via Flickr |
In lasers, photons enter into atoms, stick on to an electron, forcing it to spin on a more distant orbit from the nucleus. This state does not last long. So, photons are released again back to the wild and the electrons fall back to a closer distance orbit from the nucleus of the atom. We could understand that the photon contains energy equal with the energy lost from the spinning electron when falls from a distant orbit to a closer orbit from the nucleus. This also applies to the sum of the energy all the atom electrons lost and the sum of the photons energy released from an atom.
Should this photon forcing energy field exists, it should be applicable to all photons, no matter if they are engaged within electrons of atoms, or they are free in the universe. Let's call it anti-G.
Electrons must have a certain capacity and quality of photon containers. It must be this way because not all photons carry the same energy, and atoms are more receptive to certain qualities of photons than others.
The effect of this force field (lets call it anti-G) are observed on the electrons which when they receive an extra photon they jump to a higher orbit radius away from the nucleus of the atom. This must be the effect of the anti-G force affecting the engaged photon.
But there must be another force field which has an effect on combining the photons with their receptor electrons and it must be strong enough to have them combined for a certain amount of time. Let's call that as combi-F. This force field must be responsible for connecting the non mass containing photons with the little mass containing electrons.
Even with the combi-F field keeping light photons and electrons together, the anti-G forc
 |
| Image via Wikipedia |
So, when the photons are forced to travel on the equilibrium level of the speed of light while free from any combination, then while photons are combined with electrons, the same force field anti-G could combine with the combi-F force field and force the electrons travelling with near speed of light, kept by the electromagnetic attraction of the opposite charged nucleus of the atom, but not able to fall into the nucleus due to a certain filled photon capacity inside them.
Of course the electrons are mass containing objects and so the speed of light is not achievable by them. We have also to accept that the speed of light is an equilibrium state of all photons.
By calling this speed of light as equilibrium state, we do not declare it as maximum or minimum but as a limit of a travel speed functional limit of the anti-G force field in the long term, no matter if this long term could take up to microseconds to achieve it.
This anti-G force field could be part of the so called dark energy, which here is oxymoron to call the energy field that is affecting only the light as dark energy.
The electrons must have enough capacity to collect photons, and the effect of the combi-F could be observable for a period of time.
The laser effects give us another observation: while some photons stick to some electrons and make them move up the orbital energy spheres, other photons pass without effect, other stay combined for various amounts of time and then they become free again. This may lead to the understanding of various electrons could have various capacities for various energy level photons. Maybe the electrons themselves have capacity spheres in different energy levels for each quality of photon in a similar structure of the atom itself with its orbital capacity of electrons and their spins.
Here, in the capacity of photons of the electrons we may be able to identify and possibly calculate the combi-F energy force field. And through that calculation we may then be able to calculate the anti-G force field, using the photon qualities and attributes and seeing its effects on the photon electro combination.
So, the so called antigravity could be the anti-G force field, that so many look for it on the mass contained fields, but itself is strong only on the non mass containing particles such as photons.
In case we observe long distance travelled photons from their source being dimmed more than it is expected and calculated by the distance, we may then need to re-evaluate the nature of photon as a single entity and create a theoretical model the photons such as a combination of sub photon particles travelling in groups, and during the travelling though space they may have lost a sub photon particle to an encountered electron with free capacity for such a sub photon particle to be combined into it. Again another force field similar to the combi-F should be considered for keeping the sub photons together.
This may explain the graduate darkness of the visible for example range of photons in the night sky.
All of the above theories require a lot of statistical chances, which may not be easy to confirm in a small scale or a small sample of events.
0 σχόλια:
Δημοσίευση σχολίου