Skip to main content

Particle theories, Big Bang, and negative mass are interesting things.


RHIC (Relativistic Heavy Ion Collider) particle accelerator opens new views into the universe.  The most interesting part of the research is that researchers try to find the critical point in energy level when quark-gluon plasma turns to particles. That point is a good tool to determine the age of the universe. 

If researchers find that point, they can start to find the point where the Big Bang happened. And that could open the biggest mystery in the universe. That thing is what happened before the Big Bang or during the Big Bang. One of the versions of the reason why the Big Bang happened is in theory, called "the Brane model". 

That model requires that there was some kind of electromagnetic field before the Big Bang. In that model, two electromagnetic fields touched each other. And that formed a standing wave. That standing wave between those electromagnetic fields pushed those fields back forming the wave where the Schwinger effect formed material in those wave movements or electromagnetic fields. The question is, of course, are those fields overlapped or side-by-side? 


The negative mass requires Higgs's mirror-field existence. So could the Higgs mirror field form by standing wave movement between Higgs fields? 


"Mapping nuclear phase changes is like studying how water changes under different conditions of temperature and pressure (net baryon density for nuclear matter). RHIC’s collisions “melt” protons and neutrons to create quark-gluon plasma (QGP). STAR physicists are exploring collisions at different energies, turning the “knobs” of temperature and baryon density, to look for signs of a “critical point.” Credit: Brookhaven National Laboratory" (ScitechDaily.com/Critical Point in Matter Transformation: When the Universe Changes Its Mind)



When we think of the model of the anti-universe, we can think that the universe formed. When two Higgs fields, or some other electromagnetic fields impact, forming a Schwinger effect.


When the Schwinger effect forms material. That effect formed particles and their mirror particles. So in this model, there is a possibility that our universe has identical twins. But in that universe, everything could be upside down. And the Higgs field could interact oppositely. In the model, the Higgs field pulls energy through the particle. That effect formed an electromagnetic low-pressure between superstrings. And that wave movement collapses particles sooner or later. 

But then we can think about a special case called Higgs Boson. Higgs Boson is like a wave that moves in Higgs field. That means the Higgs field must be more powerful inside that wave. So could the Higgs mirror field hide in the Higgs boson? Could Higgs Boson be a place, where the Higgs field interacts oppositely more than otherwise? 

The thing that makes this model interesting is that. Higgs Boson forms Z and W bosons and many other particles when it divides. In that model, the Higgs Boson can fall, and it sends shockwaves where the Schwinger effect forms those particles outside the Higgs Boson. Or otherwise, the Higgs boson releases a negative Higgs field from inside it. The negative mass requires a negative Higgs field. 



Standing waves and the Big Bang. 


Did two electromagnetic fields that impact formed the standing wave that sends energy impulses through the electromagnetic field? The idea is that all electromagnetic fields, including the Higgs field, and gravitation field can form standing waves if their frequency is the same. In some models of the Big Bang, the gravitation turned its mirror, and the antigravitation formed the Big Bang. 

Along with Higgs mirror fields could form by making standing waves between those fields. In that model, the standing wave can make the situation that the field that impacts it cannot travel through that thing. If standing waveforms between the particle and the Higgs field that locks the effect of the Higgs mechanism. 

Maybe, the extremely fast spin of the photons is the thing that makes it possible that the Higgs field cannot interact with that particle. There is a possibility to make the standing wave of the Higgs field between particles or layers by forming Higgs Bosons that send wave movement against each other. 

But forming stable Higgs Bosons is very difficult. And that requires so powerful energy pump that this kind of system requires extremely high energy production. Maybe things like antimatter systems can create these kinds of energy levels someday in the future. 



https://scitechdaily.com/critical-point-in-matter-transformation-when-the-universe-changes-its-mind/?expand_article=1



Comments

Popular posts from this blog

The hydrogen-burning supernovas are interesting models.

"Researchers discovered a significant magnesium anomaly in a meteorite’s dust particle, challenging current astrophysical models and suggesting new insights into hydrogen-burning supernovas. (Artist’s concept.)Credit: SciTechDaily.com" (ScitechDaily, Rare Dust Particle From Ancient Extraterrestrial Meteorite Challenges Astrophysical Models) If the star is too heavy when its fusion reaction starts, it can detonate just at that moment, when its fusion starts. If the collapsing nebula is heavy enough, it can form a black hole straight from the nebula. But if the nebula's gravity is too heavy to  form  the blue giant or too  small  it can collapse  straight  into a black hole . If  the forming star is a little bit larger than the blue supergiants. It can explode immediately when the fusion starts.    The theory of hydrogen-burning supernovas consists  model  of the giant stars that explode immediately after their fusion starts. When the...

The ancient galaxy mirrors the Milky Way.

"This image shows the galaxy REBELS-25 as seen by the Atacama Large Millimeter/submillimeter Array (ALMA), overlaid on an infrared image of other stars and galaxies. The infrared image was taken by ESO’s Visible and Infrared Survey Telescope for Astronomy (VISTA). In a recent study, researchers found evidence that REBELS-25 is a strongly rotating disc galaxy existing only 700 million years after the Big Bang. This makes it the most distant and earliest known Milky Way-like galaxy found to date. Credit: ALMA (ESO/NAOJ/NRAO)/L. Rowland et al./ESO/J. Dunlop et al. Ack.: CASU, CALET" (ScitechDaily, Astronomers Baffled by Ancient Galaxy That Mirrors Modern Milky Way) Researchers found the youngest Milky Way-type galaxy. The distance to the galaxy is enormous. And the light that comes from that galaxy named REBELS-25 comes from the Universe that is only 700 million years old. The distance to that galaxy is enormous about 236 billion light years. And that means it's a very dista...

Transcendence, or the ability to transcendent thinking may grow in teen's brains.

   "New research has discovered that transcendent thinking, which involves analyzing the broader implications of situations, can foster brain growth in adolescents. This form of thinking enhances brain network coordination, impacting developmental milestones and future life satisfaction. The study emphasizes the need for education that encourages deep, reflective thought, underscoring the critical role of adolescents in their own brain development". (ScitechDaily, Scientists Discover That “Transcendent” Thinking May Grow Teens’ Brains) "Scientists at  USC Rossier School of Education’s Center for Affective Neuroscience, Development, Learning and Education (CANDLE) have discovered that adolescents who grapple with the bigger meaning of social situations experience greater brain growth, which predicts stronger identity development and life satisfaction years later". (ScitechDaily, Scientists Discover That “Transcendent” Thinking May Grow Teens’ Brains) The transcendenc...