Each of the three papers published in "Annihilation Physics and Theory" is very valuable, and the first two papers are of great value. The first paper was "First-order Lithium Element". Just a title attracted countless attention.
When talking about upgraded elements before, the only thing that came to mind was first-order iron, but now there is first-order lithium, and everyone knows what it means. After checking the contents of the paper, I immediately knew that I was right, and that I had indeed discovered first-order lithium.
First-order lithium, as the second upgraded element discovered, is undoubtedly of great significance. At its simplest, it is like discovering that a certain element has special properties, and then discovering that other elements also have similar properties. Behavior.
This shows that the behavior discovered is universal. Upgrading, that's it.
The iron element that undergoes electron transition has been discovered before. Even though most people believe that other elements can also undergo electronic transition, there is no evidence to support this.
Now that first-order lithium has been discovered, it shows that many elements can undergo 'electronic transition', not just iron elements.
Iron and lithium are both metallic elements.
So it can be summarized simply - under a sufficiently strong annihilation force field environment, metal elements undergo electronic transitions and reach an 'upgraded' stable elemental state.
This is an important conclusion.
Mathematics is very rigorous; physics and chemistry are also very rigorous. Even if first-order iron has been discovered, no scientist can say with certainty that electronic transitions can also occur in other elements. As long as it is not discovered, it is just a theoretical deduction.
From this we can see how important the discovery of first-order lithium is.
From the perspective of scientific research, lithium ranks third in the periodic table of elements. It is the most active metal element and has extraordinary scientific research value.
In a market sense, lithium compounds are commonly used materials in industry. Because of the active state of lithium ions, lithium compounds can be used as the main component of batteries.
As an upgraded element, first-order lithium has full potential and value in scientific research, application, economy and other aspects.
The second article is "Abnormal Ionization Properties of Magnetized Lithium Element Compounds", which directly illustrates the potential of first-order lithium element compounds.
The research theme is that in a strong annihilation force field environment, the ionization characteristics of magnetized lithium compounds are greatly enhanced.
This result has the greatest impact.
Only scholars will care about many new discoveries and theories. Various lithium compounds are widely used chemical materials in the battery industry.
The enhanced ionization properties of magnetized lithium element compounds mean that the lithium batteries manufactured with this method will have enhanced power storage and discharge performance, which contains huge economic value.
Think about it....
Lithium element compounds only have to pass through a strong annihilation force field once, and the ionization properties are generally enhanced by more than twice. The manufacturing process is relatively simple, but the performance has been greatly improved, and it can naturally achieve a wide range of applications.
The impact of the publication of this result was directly reflected in the securities market.
The stock prices of all companies and sectors related to lithium batteries have increased significantly, and the stock prices of 29 domestic companies have directly reached the limit.
Foreign stock markets are allowed to fluctuate significantly, and the market reaction will naturally be more intense.
There is a supplier of lithium compounds whose stock price tripled and was still rising before the market closed.
soon.
The fluctuations in the stock market have radiated to the automobile industry, and the stock prices of new energy vehicle brand manufacturers have also risen rapidly.
Domestic experts predict that "lithium batteries and related sectors will continue to rise in the next week or even longer."
"New research findings will be a strong boost to related sectors." "In the future, lithium battery-related application technologies, markets and application prospects will become broader."
From a market perspective, new energy vehicles are a good example.
new energy vehicles,
Generally speaking, it refers to electric vehicles, most of which use lithium batteries as energy equipment. In the past ten years, electric vehicles have developed very rapidly, and now they have a huge market.
But at the same time, electric vehicles also have some shortcomings that cannot be concealed.
Battery performance is one of them.
The range of ordinary civilian electric vehicles is less than 600 kilometers, and the limited high-speed driving and long charging time of electric vehicles are difficult to solve.
High-speed driving is limited because there is an upper limit on battery output power. For example, when the speed of some electric vehicles reaches more than 100 kilometers per hour, problems such as insufficient power and high power consumption will occur.
Another problem is the long charging time.
Some manufacturers provide high-power charging solutions, but even high-power charging takes time and increases certain safety risks.
The enhanced ionization properties of magnetized lithium element compounds can make the manufactured lithium battery have greater output power, which can perfectly solve the first problem.
The second question provides a solution for 'ultra-long battery life'.
By more than doubling the ionization characteristics, the produced lithium battery can store twice as much power, and its original range of only 600 kilometers can be directly transformed into 1,200 kilometers.
This improvement is of decisive significance and can support electric vehicles to travel long distances without worrying about charging problems.
This improvement is not yet fixed.
At present, the ionization properties of lithium element compounds can be enhanced by more than twice after simple magnetization. What if the compounds are completely made of first-order lithium?
"The improvement will only be higher!"
"Maybe three times, four times, maybe five times, ten times..."
"There are no specific data yet, but if you think about it carefully, you will know that the improvement can only be greater. By then, electric vehicles can run thousands of kilometers in one breath..."
This is so fascinating.
The third article is "Ionization Energy of First-order Iron Element and First-order Lithium Element".
This research is to measure the ionization energy of two ascending elements in detail through continuous experiments.
Except for scholars in related fields, few people pay attention to it. ...
That day, the world was discussing the issue of first-order lithium and magnetized lithium element compounds. Public opinion mainly focused on the scientific research value of first-order lithium and its impact on the lithium battery industry.
Some relevant scientific research institutions are more concerned about the information revealed by the results - the strength of the annihilation force field.
The first paper talks about a data, the critical value of electronic transition of lithium element is '7.2 times'; the second paper talks about the annihilation force field strength that doubles the ionization properties of magnetized lithium element compounds, which is about '8 times' '.
This is a straightforward explanation that the strength of the annihilation force field created by the antigravity center has approached or exceeded '8 times'.
The International Annihilation Theory Organization spent tens of billions of dollars to create an annihilation force field that is only about '4 times' stronger.
The difference is clear at a glance.
The international physics community is in an uproar.
Many scholars were surprised by this gap, but they did not have any doubts because the experiments had already made conclusive findings.
The scholars of the Annihilation Organization felt very incredible. They initially judged that the strength of the annihilation force field created by the other party was about 5 times.
Later, after the discovery of first-order iron was made public, their judgment data became 6.6 times.
Then, when first-order iron was mass-produced, the judgment data became seven times larger.
Is it '8' now? "Incredible!"
"How on earth did they do it!"
Bill Bryan was extremely surprised, "Why can they keep strengthening the annihilation field? Or is it that the intensity of the field they create is already very high?"
Juraj-Novotny looked disappointed. He sighed, "I was not optimistic about the organization at first, and proposed cooperation with flower growers."
"Later, we successfully created a strong annihilation field, which brought
confidence. "
"Now......".
"Let alone two or three generations, let alone a few more generations, ten or twenty years, I feel there is no hope..."
Faced with the huge gap in technology, Novotny felt a sense of despair.
Bill Bryan also looked responsible, "Yurai, how do you think they did it? Didn't they do the same research as us?"
Novotny thought for a moment, frowned and said, "You mean technology?"
"Their strength has been increasing." Bill Bryan spread his hands and said, "And we just hope to create the next generation of equipment."
Their research method is to conduct demonstrations and then create corresponding equipment.
When the equipment is actually manufactured, because its underlying technology is very complex and the internal structure has been fixed, there is no way to adjust it, so the intensity of the annihilation force field created is fixed.
The strength of the annihilation force field created by the Antigravity Behavior Research Center seems to be increasing all the time...
why is that?
Brian and Novotny were silent together.
Brian raised an idea, "Are they conducting standardized research?"
"What's the meaning?"
"It means the internal design is standardized. After it is manufactured, the internal design can be changed, just like Lego bricks... Do you understand?" "..."
Novotny tugged at the corner of his mouth and denied, "To reach that level, the upfront investment would have to be over 100 billion U.S. dollars, right?" He added, "It's probably not enough."
"Either it's the material?"
Brian thought of another reason, "The superconducting materials they use are improving?"
"Can superconducting materials be improved once, and can they be improved a second time?" Novotny denied again, "That's a material. Even if a new material is developed, testing it will be a big problem, and it's simply impossible!" Two People remain silent.
Brian took a deep breath depressedly and asked, "What should we do with those people outside?"
"Are you referring to reporters or officials?" "Both."
Novotny thought for a long time, pressed his forehead hard and said, "I don't know either. To be honest, I miss Empoli a little bit."
"Me too." The two of them smiled bitterly together.
When Empoli-Cubo was the head of the organization, it was his job to deal with reporters and officials.
Now that Empoli-Cubo has left, the organization has no new leader.
Novotny and Bryan are the ones with the highest positions, but they don't want to face annoying reporters and officials in an environment of negative public opinion. "Let's let the press officer come forward."
Novotny said with depression, "This is already the case anyway, what can happen if it gets worse? The big deal..."
"I'm resigning too!"......
Argonne Laboratory.
Duroyshev-J-Baker also saw three research results. Unlike others, he stared at the third "small result" non-stop.
There is important data above——
The ionization energy of first-order iron: 12.439eV.
Duroyshev felt a little confused. His team completed the measurement of the ionization energy of first-order iron. After thinking that they had made a big discovery, they submitted the article to Science magazine and determined a specific release time.
Result...The results are already there?
"If Science magazine publishes the results, I will probably become a joke to the whole world by then, right?" Duroinshev suddenly reacted and was about to call Science magazine.
Then, the call came.
"Science" magazine also responded quickly. The caller was editor-in-chief Hilt, who said bluntly, "Mr. Baker, I think your results are no longer suitable for publication."
"I know."
"Then we'll withdraw?" "Let's withdraw!"
Duroinshev said with depression.
Although he had already made a record on the pre-publication website before submitting the article to Science magazine, it was no longer meaningful.
No one would believe that his research was earlier than that of the Antigravity Research Center.
One is the research content. The Antigravity Properties Research Center discovered the abnormal ionization characteristics of magnetized lithium element compounds and discovered the first-order lithium element. At the same time, it also measured the ionization energy of first-order lithium and first-order iron.
Putting so many research results together cannot be completed in a short time.
The second is data accuracy.
The determination of element ionization energy requires many experiments to determine. They did several experiments and determined that the range is 12.2eV to 12.4eV.
The other party is 12.439eV.
With three decimal places, the data is undoubtedly very accurate, which means that the other party has conducted more experiments than them and the measurements are more accurate.
Then the discovery time must be earlier.
"Just pretend that nothing was found..." Duroyshev could only find a way to comfort himself in the end, and he walked out of the laboratory depressed.
This time I met Christopher Johnson again.
Christopher noticed Duroyshev's expression and suddenly felt a little strange. In the past few days, Duroyshev had been in high spirits every day.
Now, what happened?
"Duro, do you know Wang Hao's new achievements?" Christopher asked, "First-order lithium, and lithium compounds?"
Duroinshev glared fiercely and walked away.
Christopher felt confused. He thought there must be some reason, so he took the initiative to inquire with others.
soon.
He knew the reason and suddenly felt a little gloating.
At the same time, Christopher felt a little bit the same way. Thinking back to his cooperation with the Annihilation Organization, they discovered that first-order iron would not be affected by a strong annihilation force field and cause a magnetization reaction.
Then the results were published together.
The Antigravity Behavior Research Center immediately released research on first-order energy waves, making their so-called 'big discovery' a complete joke.
Now Duroinshev..."Just thinking about it..."
"Duro is really lucky. The results haven't been published yet, and others don't know about it yet." Christopher thought with his lips raised, but he felt that he should help publicize it.
Even if it's only known to a small group of people, it can put them through the same situation.
If you feel the same way, you must be completely consistent. "right!"
"That's it..."
After Christopher made his decision, he went to the laboratory's internal network forum and posted a brief explanation anonymously. Mason Mathematical Sciences Laboratory.
Wang Hao was sitting in his office, continuing to demonstrate the 'unusual phenomenon' with others. He didn't care about the published results at all. As for the international influence, it was all expected.
The study of "special phenomena" is still at a theoretical level.
They didn't know how to conduct experimental verification. It was impossible for them to do a nuclear test in a strong annihilation force field as Ding Zhiqiang said.
That kind of experiment is impossible.
At least not possible on Earth for the time being.
Some outside public opinion says that strong annihilation force fields are small black holes. Such statements are certainly not correct, but if a nuclear test is conducted inside the force field, uncontrollable risks may arise.
At that time, what if a black hole is created?
He would not conduct such a dangerous experiment before the research reached a certain stage.
However, the discussion of "unusual phenomena" has not progressed.
Helen suddenly had a suggestion, "Teacher Wang, maybe we can publish the theory? In most physical research, theory and experiment are separated."
"We don't necessarily have to do verification."
"When the theory is published, there will definitely be many
People are interested..." Wang Hao was stunned for a moment, then suddenly realized, "It makes sense, we don't have to conduct experiments ourselves." He said and patted his forehead hard.
He found himself going to extremes.
When it comes to research on the direction of the annihilation force field, most of them study the theory themselves and then design experiments to verify it.
But in fact, in physics, theories are first formulated and then verified slowly.
Therefore, there is theoretical physics.
"Special phenomenon" is just an idea, and its manifestation may not necessarily be a special magnetic field, but may also be other aspects.
For example, some kind of radiation that cannot be measured for the time being.
Only with more physicists and more teams interested in conducting research in various directions will it be more likely to complete experimental verification.
This will do them no harm at all.
Just like the discovery of the Higgs particle, the theory preceded the discovery by fifty years, and the physicists who later won the Nobel Prize in Physics were also physicists engaged in theoretical research.
Theory is more important than experimental findings.
In fact, it's like doing research. Ideas are often more important than effort.
After Wang Hao made his decision, he asked other people. Paul Phil-Jones and Ding Zhiqiang had no objections. They also felt that there would be no progress if they continued to argue.
They unanimously decided to publish. soon.
They completed the paper together, and the paper was still submitted to "Annihilation Physics and Theory" and will be published in the next issue.
