"Images of the two icy objects as seen by the ALMA telescope. (Image credit: Takashi Shimonishi/Niigata University)" (LiveScience, Mysterious 'ice balls' in space baffle astronomers)
AKARI and ALMA telescopes spotted mysterious icy balls or bubbles in our galaxy. Those turquoise bubbles were spotted originally in 2011, by AKARI. The Atacama Large Millimeter/submillimeter Array, ALMA collects more data from those objects. And they are more mysterious than previously thought.
Those bubbles are similar to bubbles. The Fermi satellite was spotted from both sides of the Milky Way. The problem with those two icy bubble pairs is that they are very cold. Those icy balls form when something pulls materials around it. And then that something acts like a thermal pump. That transfers energy from that structure.
The answer is that: there is some kind of very low-energy channel or structure where the energy travels in the pulses. And the low-energy sequence pulls energy out from the material around them.
Could that low-energy object be some kind of coherent gravity wave? The low-energy object can also form whirls, but as in many other models, the problem is this. Energy always travels somewhere. So the low-energy object itself is not a problem.
The problem is this. Where does that thing put energy? The black hole transfers energy out in the form of gravity waves and relativistic jets. In that kind of model, the jet that takes energy with it must have a lower energy level than the particles that form those whirls. Those balls' double structure supports the model. That there are so-called energy beams that travel between those whirls. If those whirls rotate in opposite directions that tells that the force that forms them travels between those objects.
The mysterious balls are similar to Fermi constellations (Fermi bubbles) (Above). The problem is that the Fermi constellation has a high energy level. Those mysterious, turquoise bubbles are very cold So, their energy level is very low. They seem opposite-, or mirror phenomenon. The Fermi constellation consists of two high-energy bubbles. But the new bubbles have low energy levels. That means they cannot be miniature versions of Fermi constellations.
Negative energy and "black light".
The "black light" means so low-energy radiation and fields that energy travels into those fields. The idea is that energy always travels to a lower level. The black light means the photon beam has an energy level so low that it conducts and binds energy into it.
Laser systems can act as thermal pumps. They just transfer energy from the object. The laser thermal pump acts like a regular thermal pump. It just pushes energy out from the object. The system looks like a box. When a laser ray travels through that box it pushes molecules and atoms away from it. Those atoms and molecules take energy with them. And also photons move energy fields with them. The photon beam acts like water that travels through space.
If an extremely thin energy field or superstring travels through a photon it can turn the photon into a very low energy level and transport energy out from it so fast that the photons turn invisible. The thin energy beam acts like a thermal pump that transports energy in one direction out from the photon. If that string moves very fast the energy load in the individual points of the string is so low that the observer cannot see it.
But that doesn't mean that the black photon exists. The black photon means the photon that is on so low energy level that energy travels into it. The question is: can we make the black photon? Light has two forms wave and particle forms. The photon is a particle that looks a little bit like a donut. An extremely thin energy field or superstring can transport energy out from a photon. If it travels through the photon. That removes energy from the photon's ring.
Another way can be that the photon's ring-shaped structure can form ring-shaped energy fields that side-by-side form that donut. When those ring-shaped fields rotate in the same direction, or most of them rotate in the same direction. That makes the photon transport energy in one direction. That means: this kind of photon can turn the energy field into a so thin string. That we cannot see it.
That thing means that a negative energy object is between those balls. In that case, the negative energy travels to that object. In the positive energy model energy travels out from the object. The term "black light" doesn't mean that the light is "black". It means so low energy photon that energy or wave movement travels into it. A series of ultra-low energy photons can transport energy out from the large object. The "frozen laser" is the system where ultra-low energy photons pump energy out from the object.
https://www.ecoticias.com/en/negative-light-quantum-physics/14416/
https://fermi.gsfc.nasa.gov/science/constellations/pages/bubbles.html
https://www.livescience.com/space/astronomers-spot-bizarre-icy-balls-in-space-that-are-unlike-anything-seen-before
https://www.livescience.com/physics-mathematics/quantum-physics/the-shape-of-light-scientists-reveal-image-of-an-individual-photon-for-1st-time-ever
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