Mazenia-Schulz is one of the most famous theoretical physicists and astrophysicists in the world. He has made very significant achievements in the research fields of cosmic microwave radiation background, supermassive nebulae and cosmology.
If we were to rank current astrophysicists, Mazegna could easily rank among the top five in the world.
A physicist of this level naturally has a very great academic influence.
The news of Mazenia-Schulz's interview was paid attention to by scholars in many fields. Every word he said was reported in detail. At the same time, it also had an impact similar to the explosion of a nuclear bomb in the astrophysics community.
Because if astrophysics introduces the theory of annihilation and the theory of cosmic expansion, a large number of astrophysical results will inevitably be overturned.
Some of Mazegna's personal achievements will also be classified in the "overthrown" category.
In an important branch of physics, a large number of past results have been overturned, which means that a subject will undergo a process from subversion to reshaping.
If we take the change of political power in history as an example, it is like a regime that lasts for hundreds of years and is defeated and overthrown by new forces. Most of the people in power, nobles, etc., and people at the top of the pyramid will definitely be affected.
This is also an important reason why the argument that "dark matter does not exist" in the annihilation theory has not been accepted by the astrophysics community for a long time.
The same goes for the current theory of universe expansion.
Most astrophysicists only regard it as an irrelevant physical theory, just like the explanation of the eleven-dimensional space of string theory. It is just a physical theory that cannot be verified at all, and they
We should still conduct research in the same way as in the past, without taking into account factors such as the 'non-existence of dark matter' and the influence of the annihilation force field.
The so-called arguments related to the annihilation theory and the viewpoint of the theory of cosmic expansion are introduced into astrophysics, and the subversion of past astrophysical results can be understood by giving an example.
For example, black hole.
The study of black holes is one of the major directions in astrophysics.
One of the problems has never been explained, that is, the existence of supermassive black holes in the universe.
Past astronomical theories generally believed that black holes can grow by continuously absorbing surrounding matter. However, even if a black hole continues to absorb stars and other black holes, it is still difficult to become a supermassive black hole. The mass of the known supermassive black holes
Basically, they are between 1 million and 10 billion times the mass of the sun. This is an unimaginable number, and it is difficult to imagine how harsh the environment around such a black hole is.
However, for a galaxy, a supermassive black hole is not enough to generate enough gravity to maintain the stability of the entire galaxy, so "dark matter" needs to be introduced to fill the missing mass.
So, here comes the problem.
After the introduction of the annihilation theory, as a very special celestial body in the universe, there may be strong annihilation force fields in black holes, or even "a large number of them".
Then all calculations about the mass of the black hole are wrong.
In the past, the calculation of the mass of stars in the universe involved the important concept of Schwarzschild radius. Astronomy believes that the 'Schwarzschild radius' is positively related to the mass of stars.
In other words, as long as the 'Schwarzschild radius' can be calculated, the mass of the star can be obtained.
"Schwarzschild radius' is derived from the formula of the object's escape velocity. It sets the object's escape velocity to the speed of light, and combines it with the universal gravitational constant and the mass of the celestial body to calculate the result.
Now there is the annihilation theory, and the so-called "first-order energy wave" has been discovered. The first-order energy wave has the same wavelength and frequency as ordinary energy waves, but the energy intensity is much higher.
As a result, for stars with strong annihilation fields, it is wrong for astrophysics to rely on observing "special ray escape" to calculate the Schwarzschild radius.
If the concept of 'dark matter does not exist' is introduced, the results will be deduced more simply.
Since dark matter does not exist,
The mass required to maintain a very large galaxy is naturally located in the star itself, so we can conclude that the calculation of the black hole mass is wrong.
Two methods, same result.
In the process of obtaining this result, a large number of astrophysical results were denied, and all previous work was in vain.
Against this background, Mazenia-Schulz supports the introduction of the annihilation theory and the theory of cosmic expansion into astrophysics, which will naturally cause huge controversy in the field of astrophysics.
In the field of international astrophysics, many people have stood up to oppose Mazenia-Schulz's statement, "I don't think astrophysics should accept the theory of cosmic inflation. After all, it is just a new theory. Even if there is some experimental support,
It's still theory."
"Those so-called experimental supports are only the basis for theoretical research. We can also deduce it from other directions and draw completely different conclusions."
"There can be many explanations for an experiment. The theory of cosmic expansion is just one explanation. I personally think it is wrong."
"Mazegna cannot represent astrophysics. His ideas are completely different from mine."
Most of these astrophysicists who stood up and firmly opposed are very famous, including two scholars who have won the Nobel Prize in Physics.
The reason why they came forward is very simple. After the introduction of annihilation theory, many of their results have been denied.
It is unacceptable for anyone who has spent a lifetime investing in research and won international awards for his results, only to have others confirm that the research is wrong. At the same time, many scholars have come forward to support Mazzenha's statement.
Most of these supporting scholars are very young. They believe that only when the annihilation theory is introduced into astrophysics can it truly be revitalized, unlike the current situation -
For a long time, most of the progress in astrophysics was the discovery of a few stars or the study of nebulae as far away as '100 million light-years'.
This chapter is not over yet, please click on the next page to continue reading! When astrophysics introduced the annihilation theory, with new basic support, there were many more directions in the field.
Many achievements have been overturned, which naturally leaves a "scientific research space" for more young scholars to explore.
This is the source of the controversy.
Old scholars do not want their results to be overturned, while young scholars hope to have more space for scientific research so that they can discover many new things.
For a time, controversies related to astrophysics became the mainstream of international academic circles, and even scholars in other fields joined in and expressed their opinions.
soon.
Arguments supporting the introduction of annihilation theory into astronomy have gained the upper hand, simply because there are so many people.
After all, those successful astrophysicists are in the minority, and some, like Mazeniya-Schulz, have been conquered by the perfect "Cosmic Inflation Theory". They know very well that introducing the "Cosmic Inflation Theory" can
Solve many astronomical problems.
Most young scholars, including scholars in other fields, will naturally support the annihilation theory and the "Cosmic Inflation Theory" because most of the research on the annihilation theory is based on experiments.
Strong annihilation force fields can be created, and first-order energy waves have also been discovered. If the astronomical community continues to deny the annihilation theory, isn't it tantamount to deceiving others?
The controversy surrounding the introduction of annihilation theory in the astrophysics community has become a major event in the physics community and academia.
The International Annihilation Theory Organization has been forgotten.
They released a result that was 'incidentally released' by the Antigravity Properties Research Center with great fanfare, but it was directly overshadowed by the controversy in astrophysics.
This is good news for Empoli-Cubo, at least he does not have to face the embarrassment of academic public opinion.
But in fact, it is only the academic community that has been forgotten. Most people are not interested in the discussion about the introduction of annihilation theory into astronomy.
Research on astronomy, stars, black holes, etc. has nothing to do with ordinary people. No matter how in-depth or correct the research is, it will not affect the lives of ordinary people.
they are right
The Theory of Cosmic Inflation is also not interested in the theory of annihilation, and research on first-order energy waves is also not relevant to life.
They all have an indifferent attitude towards this. Ordinary people are more concerned about 'gossip news'.
The biggest gossip news in academia right now is naturally the results released by the International Annihilation Theory Organization and the Antigravity Behavior Research Center. Comparing the two results together, it is obvious that the Antigravity Behavior Research Center has already discovered something.
Diamagnetization properties of stage iron elements.
The Antigravity Behavior Research Center did not care about a small discovery at all, but continued research until it discovered first-order energy waves, and thus perfected the "Cosmic Expansion Theory".
The International Annihilation Theory Organization's approach is to hype it up. It's obviously just a small discovery, but they promote it like it's subverting physics.
This comparison sounds very interesting.
"Empoli-Cubo is proud of an achievement that other institutions don't even care about."
"He also publicly stated his opinion on this, believing that the electron transition of the first-order iron element has reached its extreme value and will no longer be subject to a strong annihilation force field to produce a magnetization reaction!"
"This can only prove that the technology of the International Annihilation Theory Organization is seriously insufficient. It is not that first-order iron elements will not be subject to magnetization reactions, but that they will not be affected by the "weak and strong annihilation force field" created by the International Annihilation Theory Organization...
..”
Seeing the ridicule from a large amount of public opinion, Empoli-Cubo did not dare to stand up at all. He declined interviews with all reporters and decided to seal off the town on the grounds of "major experiment" and refuse any non-work activities.
No one is allowed to enter, not even family members of internal staff of the organization.
because....
Many reporters entered the town as 'so-and-so's girlfriend', 'so-and-so's boyfriend', and 'so-and-so's student', and then looked for opportunities to interview scholars within the organization. They also revealed that the organization did not conduct experiments at all, but only Enbo.
Leigh-Cubo was afraid to be interviewed.
This made Empoli-Cubo very embarrassed, but in fact, his so-called order to "deny outsiders entry" could not be implemented at all.
Because, he is not the emperor, just the person in charge of the organization.
In the end, Empoli-Cubo could only choose to stay in the office, constantly scolding the unscrupulous reporters outside. He felt that he had lost all face.
To be continued...