Photons and their unique abilities are an interesting thing. Photons can transport energy and they can also be acting like wave movement. Those particles are known for a very long time. The person who described photons was Albert Einstein, but Sir Isaac Newton first noticed that light has particle and wave movement forms.
So the thing is that we know that photons are particles that can carry the electromagnetic force. And they can also act as wave movement and particles. The thing that makes photon also interesting is that particle is the only known particle that can travel with the speed of light.
The question is why only photons have those abilities? Why the particle can carry energy without mass? All other particles can also make that thing but they have a mass. But how photons can be so different? Photons are not interacting with electromagnetic fields. They are themselves neutral.
When we are thinking about the reason why photons are so different one of the things that can make photons have those abilities is that photons can be some kind of bag, as I wrote yesterday. The empty electromagnetic field that stays in its form because of the pressure of the outside quantum fields can explain those abilities.
The soap-bubble photons are causing an interesting theorem. The thing that detonates the soap bubble is the incoming pressure. The thing that makes the soap bubble in its form is the balance between the air pressure.
And internal pressure of the soap bubble. If the outcoming pressure is turning too weak, that thing causes the soap bubble is turning too big. The reason why the soap bubble explodes is that there is a limited material mass on its core. So sooner or later, there is a little hole in the bubble. And then that hole will rip the soap bubble into pieces.
Theoretically, if the nuclear weapon explosion will push inside, by using electromagnetic wave movement. There is the possibility to make a stable fireball. If an electromagnetic wave movement has the right force that denies the fireball from erupting its power to air can make that kind of phenomenon possible.
When particles are starting to travel outside the nuclear explosion they create the doppler field. Normally that field turns weaker and weaker when the time from the explosion is going on. But if there is possible to create the ball-shaped counter wave. That thing can stabilize the fireball.
The reason why the fireball of the nuclear explosion vanishes. Is the same why the soap bubble is exploding. The force of the nuclear explosion is so high that the fireball is expanding. When the nuclear fuel of the bomb ends that thing causes the fireball and the wave that travels at the front of it starts to deliver more energy than they get.
So sooner or later that doppler wave is so cold that the air can push it back. But if there is pushed more energy or create the ball-shaped counter doppler wave around that fireball it can turn stable. But the thing is that there is no technology for that thing.
https://www.livescience.com/what-are-photons
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