"Black holes formed of different materials should have different information encoded on their event horizons, and it is not understood if or how that information is then encoded in the outgoing Hawking radiation. Recent work from 2023 has suggested that even horizonless objects may emit Hawking radiation as well, but that result was discovered to have been ruled out in the literature historically: way back in 1975."(BigThink, It’s time to stop teaching the biggest lie about Hawking radiation)
"Hawking radiation is one of the most incredible phenomena in the Universe, which will eventually lead to the complete decay and evaporation of the most gravitationally profound objects of all: black holes. According to no less an authority than Stephen Hawking himself, this operates based on particle-antiparticle pairs spontaneously being created by the quantum vacuum, where some members escape, leading to evaporation. But Hawking’s explanation isn’t just misleading, it’s completely incorrect. Black holes don’t emit matter or antimatter via Hawking radiation, but low-energy photons. Here’s how they really evaporate." (BigThink, It’s time to stop teaching the biggest lie about Hawking radiation)
Initially, I must say that Hawking radiation is not involved in antimatter annihilation. Things. Like back hole jets and blazars, explosive galaxies can form antimatter. The antimatter form occurs when a high-power jet travels through a galaxy and its quantum fields. And those fields and their interaction with high-energy particles. Turns some of those particles’ spins opposite. And that forms antimatter particles. The origin of the Hawking radiation is somewhere near the event horizon.
Sometimes, there is a suggestion that. Hawking radiation forms when two subatomic particles. Turn into quantum entanglement. When another part of the quantum entanglement penetrates through the event horizon, it can conduct energy out from the black hole. The event horizon is the point where the escape velocity reaches the speed of light. In that area near black holes, energy and high-energy particles orbit the singularity. Precisely at the point of the event horizon, the wave movement starts to spin around the black hole.
There are locked photons at that point. And those photons. They can turn into quantum entanglement with other photons. In that case, the energy that is stored in or near a black hole can be conducted out from that space. In some other models, the photon that falls through the event horizon is the thing that sends energy impulses through the universe. In those extreme conditions, even the small things mean something. So, near a black hole, the photon itself can be partially in the event horizon.
“The most common, and incorrect, explanation for how Hawking radiation arises is an analogy with particle-antiparticle pairs. If one member with negative energy falls into the black hole’s event horizon, while the other member with positive energy escapes, the black hole loses mass. And outgoing radiation departs the black hole. This explanation has misinformed generations of physicists and came from Hawking himself. One of the errors inherent to this explanation is the notion that all of the Hawking radiation arises from the event horizon itself: it does not.”(Big Think, It’s time to stop teaching the biggest lie about Hawking radiation)
That means a photon acts like an antenna that conducts energy out from the event horizon. Anyway, in all those cases, the Hawking radiation. It can have. Such a mall transmitter. That means the radiation impulse that this radiation sends. Affect in such a small area. That's it. Cannot cause a visible anomaly in the particle’s behavior. In that model, Hawking radiation. Just tunnels through particles without causing a strong enough energy transfer, so that researchers can detect it.
The model. It goes like this: Hawking radiation is like a small string. That makes a tunnel through a particle. All particles are actually ball-shaped quantum fields. When. A high-energy radiation wave has a small diameter. And it tunnels itself through the particle. During that process, the small-diameter radiation string pushes the particle’s quantum field away from its path. The particle’s quantum field is separated from that of the string. And the edge of the hole is at a higher energy level than the string. This denies energy transfer to the shell of the particle. This is one version of the models that could explain why Hawking radiation is so strange and hard to detect.
There is a possibility of Hawking radiation. It is like neutrino radiation. But on a smaller scale. If. We think that neutrinos play a vital role in matter formation. We can think. That. Hawking radiation has the same role. On. A smaller scale. Neutrinos can form the quantum points where neutrinos take energy away. That makes the effect. There is energy around the neutrino and channels. Neutrinos take energy with them. That makes it start to travel to that channel and neutrino.
And that effect presses particles to that point. Neutrinos deny. The form of standing waves. In the monoatomic objects. Like hydrogen stars. Without those quantum dots, their energy can travel and conduct energy away from particles. the standing waves push particles away from each other. There is a possibility that Hawking radiation forms similar energy dots in subatomic particles. That keeps them in their form.
https://bigthink.com/starts-with-a-bang/hawking-radiation-really-work/
https://en.wikipedia.org/wiki/Blazar
https://en.wikipedia.org/wiki/Hawking_radiation
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