Gamma-ray observations shock researchers.

    Gamma-ray observations shock researchers. 

NASA analyzed 13 years of Fermi satellite data about the cosmic gamma-ray background. The data is compiled with the cosmic microwave background. That thing shocked scientists. The power of some gamma-ray objects was far more high energy than expected. There is also a mystic circular gamma-ray area near the gamma-ray "equator". 

That circular gamma-ray can be one of the reasons why there are so-called holes in the microwave background. Those holes are seen in darker areas. When high-energy gamma rays or coherent gamma rays travel through the universe, they harvest energy into themselves. 

"This artist’s concept shows the entire sky in gamma rays with magenta circles illustrating the uncertainty in the direction from which more high-energy gamma rays than average seem to be arriving. In this view, the plane of our galaxy runs across the middle of the map. The circles enclose regions with a 68% (inner) and a 95% chance of containing the origin of these gamma rays. Credit: NASA’s Goddard Space Flight Center" (ScitechDaily.com/Unidentified Cosmic Phenomena: Fermi’s Gamma-Ray Discovery Shocks Astronomers) 

That circle shows that high-energy radiation impacts with material at that point. That impact creates a gamma ray field. So at that point, gamma rays are emission radiation that comes from particles that are adjusted in higher energy levels for some unknown reasons. 

 

"The scientists combined 13 years of Fermi Large Area Telescope observations of gamma rays above about 3 billion electron volts (GeV), removed all discrete sources and stripped out the central plane of our Milky Way galaxy in order to analyze the extragalactic gamma-ray background. Analysis of the resulting data revealed a part of the sky where more high-energy gamma rays are arriving than average. The direction is not precisely known. The circles show regions where there is a 68% and a 95% chance of containing the origin of these gamma rays for one analysis approach. Credit: NASA’s Goddard Space Flight Center". (ScitechDaily.com/Unidentified Cosmic Phenomena: Fermi’s Gamma-Ray Discovery Shocks Astronomers) 

"The team was searching for a gamma-ray signal related to our solar system’s motion of about 230 miles (370 kilometers) per second relative to the CMB (Cosmic Microwave Background) , which is widely regarded as being responsible for the dipole emission it displays. What they found instead was a gamma-ray signal 10 times stronger than expected from our galaxy’s motion and located far from the CMB dipole. Credit: NASA’s Goddard Space Flight Center" (ScitechDaily.com/Unidentified Cosmic Phenomena: Fermi’s Gamma-Ray Discovery Shocks Astronomers) 

"Top: An all-sky map of extragalactic gamma rays in which the central plane of our galaxy, shown in dark blue where data has been removed, runs across the middle. The red dot and circles indicate the approximate direction from which more gamma rays than average seem to be arriving. Bottom: A similar all-sky map showing the distribution of ultrahigh-energy cosmic rays detected by the Pierre Auger Observatory in Argentina. Red indicates directions from which greater than average numbers of particles arrive, blue indicates directions with fewer than average. This video superposes the Fermi map onto the cosmic ray map, illustrating the similarity of the dipole directions. Credit: Kashlinsky et al. 2024 and the Pierre Auger Collaboration" (ScitechDaily.com/Unidentified Cosmic Phenomena: Fermi’s Gamma-Ray Discovery Shocks Astronomers) 

**********************************************

Light transistor. 

The idea of the light transistor is simple. Higher energy radiation pulls lower energy radiation with it. The light transistor is two crossing laser rays. The base is lower lower-energy laser ray than the collector-emitter laser ray. The base pumps information to the collector-emitter laser ray. Otherwise, information can travel in collector-emitter laser ray, and the base just increases its power. 

**********************************************

When those gamma rays travel in the universe, they will pull gas and energy fields with them. Gamma rays are the most high-energy radiation in the universe. The particle that transmits that wave movement is very small, and it sends gamma rays very often. That makes the gamma rays very short-wave. When they travel through the gas clouds gamma rays are making holes into those things. 

When a gamma ray hits an object object it will tunnel through it. But when it hits elementary particles it transfers a little bit of energy to them. The short wavelength causes the situation. That particle has no time to release the extra energy that gamma-ray brings it. When the energy level in a particle rises higher than the environment, the particle sends energy as wave movement and photons. That wave movement pushes them away from each other. 

When gamma rays remove all particles from their route, there is nothing that can reflect radiation. Then there are no particles in the radiation way. There is nothing that can transfer energy into the interstellar nebulars. And in that case, radiation starts to act like a thermal pump that pulls energy with it. That means radiation pulls other quantum fields with it. 

Gamma rays are radiation like all other wave movements. When higher energy radiation travels through lower energy radiation the higher energy radiation pulls that lower energy radiation with it. That means higher energy radiation transfers the energy of the lower energy radiation into itself. And that increases its energy level. 

Same way. When particles travel across the quantum fields they harvest part of them into themselves. That thing is called kinetic energy. That energy transfer continues. Until the particle reaches the point. Where it reaches energy stability. Energy stability means that the particle harvests as much energy as it releases. 

https://scitechdaily.com/unidentified-cosmic-phenomena-fermis-gamma-ray-discovery-shocks-astronomers/