The critical value for electron transition of iron element is around 6.6 times, and mass production of first-order iron, which represents the strong annihilation force field team of Wang Hao's team, can reach a minimum of 7 times."
"7!"
"It's still the lowest, the lowest, our inference may not be correct, the real data will only be higher..."
In the office.
Bill Bryan and Yurai Novotny had complicated expressions. They were still talking about the design of new equipment just now. They wanted to catch up with the Antigravity Behavior Research Center and achieve strong annihilation within 'two generations'
The highest level of technology in force field research.
Now they found it was completely impossible.
The minimum strength of the strong annihilation force field created by Wang Hao's team will exceed '7', while the strength of their equipment is only around '4'.
4, compared to 7, the gap is too big.
Even if the 'generation' improvement reaches 'magnification 1', if you want to create a device with a strength exceeding 7, you will need at least 'three generations'.
One generation, one year, tens of billions of dollars in funding. Three generations...
Brian and Novotny felt their scalps go numb just thinking about it, "We can't catch up, it's impossible, there's no chance at all!"
"There is no hope at all."
"Especially, since they can mass-produce first-order iron, they will no longer be short of funds..."
The last point is crucial.
The reason why they think they have the opportunity to catch up is their great source of confidence: their talent and financial advantages.
In terms of talent, their team has top physicists and engineers from all over the world, which definitely has an advantage over Wang Hao's team.
However, Wang Hao alone can compare with many people. In terms of talent comparison, it is difficult to say whether he has an advantage.
Funding is the key.
They have the support of more than a dozen countries and large institutions, and it is not a problem to receive tens or tens of billions of dollars in funding a year.
Even if there are no cutting-edge results for the time being, the funds for manufacturing the second-generation equipment have been finalized. Amrikan has provided four billion US dollars, and the Antigravity Behavior Research Center, which is Wang Hao's team, will definitely not have it.
So much money.
It's different now.
The strong annihilation force field generation technology mastered by Wang Hao's team can already be used to produce large quantities of first-order iron. In the future, first-order iron will definitely be used on a large scale, creating a steady stream of high profits.
By then, not to mention billions of dollars, tens of billions of dollars of funding will be available.
How else can the two sides compare?
Empoli-Cubo's mood is even more complicated.
Brian and Novotny only understood the huge gap in technology between the two sides and were confused about the prospects of scientific research.
He has no future!
Last month when he returned to Amerikan to attend a technical meeting, in front of Druk-Bent and a group of officials from the Department of Energy, Empoli-Cubo said conclusively, "We have carefully demonstrated that, technically speaking,
It will take two generations to catch up.”
"The technical strength of Wang Hao's team is now around '6.6' magnification, and we will improve every generation..."
"As long as there is sufficient financial support, it will take about one and a half to two years before we can produce first-order iron. If the time is longer, we can achieve mass production."
"I believe that Wang Hao's team's technology has stagnated."
"The technology to generate strong annihilation force fields is affected by superconducting materials, equipment and the environment. There is already a technology online, and each upgrade requires a high amount of funds."
"So we will definitely be able to catch up..." These are Empoli-Cubo's exact words.
He also used this to persuade Druk-Bent and a group of Department of Energy officials to support investing $4 billion in "second generation" equipment.
Now....
Druk-Bent will definitely know what "mass production of first-order iron" represents, and he will also know that
It is almost impossible for organizations to catch up technologically within a few years.
What will happen then?
"It seems that you can consider leaving your job in advance!" "Go back to Alamos?"
"No, there will no longer be a place for me in Alamos..."
Empoli-Cubo felt desperate just thinking about it. With this huge failure on his resume, it was almost impossible to find a high-paying management job.
He couldn't help but picture himself lying on the street as a homeless man, and there might be a few black people pointing at him, or even punching him.
It's miserable...
The Annihilation Organization is concerned about the technical strength of the Antigravity Behavior Research Center.
The international community is more concerned about the announcement itself from the science and technology department, which is a 10,000-fold material subsidy for institutions and companies that purchase primary iron.
This news is really shocking.
If you buy one gram, you will receive a subsidy of 10,000 grams, which is a 'ten thousand times subsidy'. But the data is staggering.
Many people know what it stands for. Locke Lisman Steel Company.
Marketing Manager Dyson Mundra is making an analysis report to CEO Chris Brodin, "This shows that they already have the ability to produce large quantities of products."
"The minimum production capacity is measured in kilograms."
"The announcement said that the subsidized materials will be delivered within one to two months, but they sold more than fifty grams of materials. From this, we can simply infer that it only takes a day at most for them to make ten kilograms of materials."
"There are two good news. One is that we have purchased 20 grams of material. When the time comes, we will have 200 kilograms of material, which can be used for a lot of research."
Dyson-Mundra stopped and asked, "Mr. Brodean,
For ten grams of material given to the Department of Energy, will the subsidy also be given to the Department of Energy?" This is indeed very important.
Locke Lisman Steel Company has reached a cooperation with government departments to help the Department of Energy purchase ten grams of first-order iron raw materials, and they can obtain some policy support.
Now the science and technology department provides purchase subsidies. Ten grams of materials will be subsidized for one hundred kilograms, which is definitely a large amount of materials.
Chrissy-Brodien immediately shook his head and said, "Of course not. The policy came out last month and we received next year's tax subsidy, but the subsidy is not much, probably only a reduction of less than 200 million U.S. dollars. This and
It’s different.”
"We were able to reach cooperation only because Drucker, the Ministry of Energy, and the tax department didn't have a good look on us..."
"Duluk's term is coming soon, why do we still care about him?"
"Anyway, that's the material we purchased. The agreement only marked 10 grams of material, not 100 kilograms. Even if it goes to court, we will only win!"
Dyson-Mundra nodded and continued, "The second good news is that the technology department will no longer sell first-class iron to the outside world in the next four to six months. They should form a new company, and then
Sold in bulk."
"This intermission period gives us time to do research and widen the gap with our competitors."
He added, "Of course, they do this to expand the market, but we have no choice..."
Dyson-Mundra analyzed the underlying reasons.
The science and technology department subsidizes materials on a large scale. One reason is that technical capabilities have greatly improved and sufficient material supplies have been produced.
Another reason is to provide materials to scientific research institutions so that they can research more applications of first-order iron, such as manufacturing high-end alloy materials.
When primary iron has more applications, there will naturally be a large market demand.
What to do when the time comes?
Of course, there is no choice but to purchase first-order iron materials in large quantities. Not only will the purchase scale increase, the transaction amount will increase, but the orders will continue to flow.
This is the fundamental purpose.
With the market and demand, we can create a steady stream of
Benefit.
This is a conspiracy.
Chrissy Brodin was silent for a long time, then asked Laurel Chemutai, "Can we work out a manufacturing method?"
Laurel-Chemu laughed, and he shrugged helplessly, "Just look at the International Annihilation Theory Organization. They invested more than 10 billion US dollars last year, and the current technology..."
"Hard to say."
He gave a three-word review, which was obviously very unfavorable.
Chrissy-Brodien also knew that his question was unreliable, as the research on strong annihilation force fields required too high-end technology.
That is a study that can only be done by the cooperation of more than a dozen countries.
The bigger reason why the flower grower's research is progressing so fast is Wang Hao himself, who discovered the force of annihilation and constantly improved the physics of annihilation.
If a company is asked to research and develop a strong annihilation force field, no one knows how much money it will invest, and the final result will only be brought down by the high investment.
Even if tens of billions or hundreds of billions of dollars are invested to really develop first-order iron manufacturing technology, by then, competitors' technologies will only be more mature and high-end. Only a simple price reduction strategy can make theirs
Research results become meaningless.
This is the advantage of possessing technology first and occupying the market first.
Chrissy-Brodyen finally said, "We must have a good relationship with the technology department. If a new company is established, we must also have a good relationship with the new company."
"Also, let the marketing department do some research. I will go there next month."
"Perhaps we should put the R&D and production related to primary iron in flower growers, so that there will be no problems with material supply."
"We need to prepare a large amount of funds to build a new factory..."...
Similar conversations occur in many companies and institutions.
After the announcement from the science and technology department came out, many enterprises and institutions also regretted not purchasing first-order iron. The price of US$100 million per gram is indeed very high, but with subsidies, it can be accepted.
This is equivalent to using money to buy time.
First-order iron is a brand-new material. It will definitely be easily available in half a year. The time between now and half a year from now will be research and development.
window period.
If we can achieve great results in relevant research and development within the window period, we will be able to seize the opportunity in the market.
Many steel and material companies are immediately thinking of various ways to purchase first-class iron materials, hoping to not fall behind in the competition.
They can be purchased.
For example, the subsidy of Locke Lisman Steel Company is high enough, so it can sell some of its materials to others, but the price is not cheap.
One gram costs 100 million U.S. dollars, and the subsidy is 10,000 grams, which means that one gram sells for about 10,000 U.S. dollars.
When it is sold to the outside world, it becomes the 'black market price', and the selling price is as high as 20,000 US dollars, 30,000 US dollars or even more.
at the same time.
International public opinion also revolves around the announcement by the science and technology department, and many people are discussing the issue of mass manufacturing of first-order iron -
"The technology of the Antigravity Behavior Research Center has improved too quickly. Is this going to be mass production?"
"I remember when I first heard about first-order iron, three months ago, it was said that one gram cost US$100 million, but now it is mass-produced!" "Theoretically speaking, first-order iron is the material of the universe in the future.
ah!"
"It's science fiction to think about using future materials now, but I heard a physics professor say that the annihilation theory overturns the theory of the existence of dark matter and believes that strong annihilation fields in the universe may exist in high-energy stars.
In clouds or black holes, there is also first-order iron in the universe."
"Even if it exists in the universe, it doesn't exist on the earth..." "In the solar system, it's hard to say!"
"First-order iron has higher physical properties than ordinary iron. It will definitely be used on a large scale in the future, which will bring about revolutionary progress in steel alloys!"
"However, it is still too expensive and can only be used for high-end materials, such as aerospace, military and other high-end materials.
end area."
"Actually, I was quite disappointed when I heard this news. A few months ago, I heard that the price was 100 million US dollars per gram. At that time, I was still thinking about buying a few grams of first-order iron and making a ring for my girlfriend.
, that is definitely the most expensive and durable ring!”
This chapter is not over yet, please click on the next page to continue reading! "It's okay now, one gram is more than 10,000 US dollars. When I decide to get married, I will give you a first-order iron ring..."
"Upstairs, and upstairs, upstairs, wake up!" "Stop sleeping!"
...
Wang Hao didn't care about the announcement from the science and technology department, nor the international reaction to it.
because.....
The release of results has just begun, and it hasn’t even started yet.
At present, it is only confirmed that first-order iron can be produced in large quantities, and their main achievement is the discovery of enhanced ionization properties of magnetized lithium element compounds.
Going one step further, first-order lithium may be discovered.
It is a pity that the vacuum and precision equipment of the material testing center have not yet arrived. The existence of first-order lithium can only be inferred through some simple experiments, and precise separation and measurement experiments cannot be performed.
In this regard, Wang Hao can only wait for news.
He simply continued to study the problem of specific magnetic fields in the Mason Number Laboratory with Paul Field-Jones, Helen, Ding Zhiqiang and others.
Relevant experiments have been conducted on specific magnetic fields, but no findings have been found yet.
The science and technology department was still very fast, and immediately established an upgraded materials research group. The research group belonged to the annihilation force field experimental group, and the person in charge was Academician Zhang Tiejun, an electromagnetic expert from the Academy of Sciences.
After the research team was established, the first experiment was immediately conducted, which was an electromagnetic induction experiment using first-order iron as a conductor.
To put it simply, first-order iron is made into a coil, and after power is supplied, the magnetic field appearing in the coil can be studied.
However, after conducting a series of basic physical experiments, we did not find anything special about the magnetic field excited by first-order iron.
This has also brought the research on specific magnetic fields to a standstill.
The question that Wang Hao and several people discussed together was, "If a specific magnetic field exists, what specific behavior will it have?"
It is a headache to study for several days and not even find inspiration.
Several people simply moved into an office, each doing his or her own work, and discussing any ideas together.
In the office.
Wang Hao and Helen are both reading the information.
Ding Zhiqiang stared down at his phone, his fingers constantly moving on the screen, and at the same time he looked up and around like a thief.
When he realized that no one was paying attention to him, he took a long breath and continued with his business.
Paul Phil-Jones leaned back on his seat and drank coffee leisurely. Sometimes, he would glance at the computer screen, type a few words and chuckle, as if he was chatting with other people.
At this time, a new reminder popped up in the mailbox.
He clicked in and took a look, his face suddenly became solemn, and his eyes widened immediately.
"Bang!"
Paul Phil-Jones stood up suddenly, slammed his hands on the table, and asked Wang Hao loudly, "Wang Hao, did you receive it?"
"What?" "Nobel!"
Paul Phil-Jones came over and waved his hands excitedly, "Nobel! Nobel! Me, you, and He Yi from the physics laboratory, the three of us!"
"Won this year's Nobel Prize in Physics!" Wang Hao also immediately opened the email to check.
Chen Mengmeng suddenly opened the door and walked in. She handed the phone to Wang Hao expectantly and explained, "Mr. Anderson from the Nobel Committee."
Wang Hao took the phone and said, "Hello, Mr. Anderson."
A middle-aged man's voice suddenly came from the other end of the phone, saying in standard English, "Hello, Mr. Wang Hao. I am Jagland-Berhard Anderson, chairman of the Nobel Committee for Physics."
"It's really not easy to contact you. I called the technology department and was transferred three times..."
Anderson said something sarcastic, and then said, "Okay. On behalf of the Nobel Committee, we are honored to inform you that you won this year's Nobel Prize in Physics!"