From University Lecturer to Chief Academician

"The critical value of the electronic transition of the iron element is around 6.6 times. The production of first-order iron in large quantities means that Wang Hao's team has a strong annihilation force field, and the lowest rate exceeds 7."

"7 ah!"

"It's still the lowest, the lowest. Our inference is not necessarily correct, and the real data will only be higher..."

in the office.

Bill Bryan and Juraj Novotini have complex expressions. They were still talking about the design of new equipment just now, thinking that they can catch up with the Antigravity Behavior Research Center within two generations and achieve strong annihilation The highest technical level of force field research.

Now they found it completely impossible.

The strong annihilation force field created by Wang Hao's team has a minimum strength of more than '7', while the strength of their equipment is only around '4'.

4. Compared with 7, the gap is too big.

Even if the improvement of "one generation" reaches "magnification 1", a minimum of "three generations" is needed to manufacture a device with a strength exceeding 7.

One generation, one year, tens of billions of dollars in funding.

three generations...

Brian and Novotini felt their scalps go numb thinking about it, "It's impossible to catch up, it's impossible, there's no chance at all!"

"There is no hope at all."

"In particular, they can produce first-order iron in large quantities, and there will be no shortage of funds at all..."

This last point is critical.

The reason why they believe that they have the opportunity to catch up is a great source of confidence because of their "talent and financial advantages".

In terms of talents, 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 can be compared to many people by himself. In terms of talent comparison, it is hard to say whether he has an advantage.

Funding is the key.

With the support of more than a dozen countries and large institutions behind them, it is not a problem to get tens or tens of billions of dollars in funding a year.

Even if there are no cutting-edge achievements for the time being, and the funding for the manufacture of the "second generation" equipment has been finalized, American will provide 4 billion US dollars, while the Anti-Gravity Behavior Research Center, that is, Wang Hao's team, will certainly not There are so many funds.

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 covered and used on a large scale, and it will be able to create a steady stream of high profits.

At that time, not to mention billions of dollars, tens of billions of dollars will be available.

How can the two sides compare?

Empoli Cooper's mood is even more complicated.

Brian and Novotini only understood the huge gap in technology between the two sides, and were confused about the prospect of scientific research.

He has no future!

Back to American last month to attend a technical conference, in front of Druk Bent and a group of officials from the Department of Energy, Empoli Cooper said conclusively, "We have carefully demonstrated, technically speaking, It will take two generations to catch up."

"Currently, the technical strength of Wang Hao's team is around '6.6', 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 it takes longer, we can achieve mass production."

"I believe that the technology of Wang Hao's team has stagnated."

"The strong annihilation force field generation technology is affected by superconducting materials, equipment, and the environment. There is already a technology online, and every upgrade requires a high amount of funding."

"So we will definitely be able to catch up..."

These are the words of Empoli Cooper.

He also used this to convince Druk Bent and a group of officials of the Department of Energy to support the investment of 4 billion US dollars for the "second generation" equipment.

Now……

Duruk-Bent will definitely know what "mass production of first-order iron" means, and he also knows that it is almost impossible for the Annihilation Organization to achieve technological catch-up within a few years.

What will happen then?

"It seems that you can consider resigning in advance!"

"Back to the Alamos?"

"No, Alamos will no longer have my place..."

Empoli Cooper feels desperate when he thinks about it. With the experience of this huge failure, it is almost impossible to find a high-paying management job.

He couldn't help but see the scene of himself lying on the side of the street as a homeless man, and there might be a few black people pointing at him, or even punching and kicking him.

Miserable miserably...

...

What the Annihilation Organization cares about is the technological strength of the Antigravity Behavior Research Center.

What the international community pays more attention to is the announcement of the science and technology department itself, that is, the material subsidy of 10,000 times for institutions and enterprises that purchase primary iron.

The news is just astonishing.

Buy one gram, subsidize 10,000 grams, that is, "ten thousand times subsidy", but the data is staggering.

Many people know what is behind it.

Rock Leesman Steel Company.

Marketing manager Dyson Mundra is giving an analysis report to CEO Chrissy Brodion, "This shows that they already have the capacity for mass production."

"The minimum production capacity is also in the unit of 'kilograms'."

"The announcement said that the subsidized materials will be delivered within one to two months, and they sell more than 50 grams of materials. From this, we can simply infer that they only need one day at most to manufacture 10 kilograms of materials."

"There are two good news. One is that we have purchased 20 grams of materials, and then we will get 200 kilograms of materials, which can be used for a lot of research."

Dyson Mundra stopped and asked, "Mr. Brodian, will the ten grams of materials given to the Department of Energy be subsidized by the Department of Energy?"

It does matter.

The Locke Leesman Steel Company has reached a cooperation with the government-government department to help the Ministry of Energy purchase ten grams of first-order iron raw materials, and they can obtain some policy support.

Now the science and technology department is issuing purchase subsidies, ten grams of materials will subsidize one hundred kilograms, which is definitely a large amount of materials.

Chrissy-Brodian immediately shook his head and said, "Of course not. The policy has already appeared last month, and we received next year's tax subsidies, but the subsidies are not much, probably only reduced by less than 200 million U.S. dollars. This is the same as Say it differently."

"At that time, the cooperation was reached only because of Duluke and the Ministry of Energy, and the tax department didn't treat us well..."

"Drucker's term is coming to an end, why should we care about him?"

"Anyway, that's the material we bought. The agreement only marked 10 grams of material instead of 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-order iron in the next four to six months. They should form a new company, and then Selling in bulk."

"The intermittent period of this window gives us time to do research and widen the gap with our competitors."

He added, "Of course, the purpose of their doing this is to expand the market, but we have no choice..."

Dyson-Mundella analyzed the deep-seated reasons.

The large-scale subsidy of materials by the science and technology sector is due to the substantial improvement of technological capabilities and the production of sufficient material supplies.

Another reason is to provide materials to scientific research institutions so that they can research more applications of first-order iron, for example, to manufacture high-end alloy materials.

When first-order iron has more applications, there will naturally be a large market demand.

When the time comes, what should we do?

Of course, there is no choice but to buy first-order iron materials in large quantities. Not only will the purchase scale increase and the transaction amount 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 benefits.

This is a conspiracy.

Chrissy Brodian was silent for a long time, and asked Laurel Chemuter, "Can we research the manufacturing method?"

Laurel Chem laughed, and he shrugged helplessly, "Just look at the International Annihilation Theory Organization. They invested more than tens of billions of dollars last year, and the current technology..."

"Hard to say."

He gave a three-word comment, which was obviously very unfavorable.

Chrissy Brodian also knew that his question was unreliable, and the technology required for the research of strong annihilation force fields was too high-end.

That is research that can only be done jointly by more than a dozen countries.

The reason why the florists' research is progressing so fast is Wang Hao himself. He discovered the annihilation force and constantly improved the annihilation physics.

If a company is asked to do the research and development of a strong annihilation force field, it does not know how much money it will invest, and the final result will only be dragged down by the high amount of money invested.

Even if tens of billions or hundreds of billions of dollars are invested to develop the first-order iron manufacturing technology, the competitor's technology can only be more mature and high-end, and only a simple "price reduction" strategy can make them research results are meaningless.

This is the benefit of owning technology first and occupying the market first.

Chrissy-Brodian concluded by saying, "You have to have a good relationship with the technology sector. If you start a new business, you have to have a good relationship with the new business."

"Also, ask the marketing department to do some research. Next month, I will go there too."

"Maybe we should put the R\u0026D and production related to primary iron in the florists, so that there will be no problem with the supply of materials."

"We need to prepare a large sum of money to build a new factory..."

...

Similar dialogues have occurred in many enterprises and institutions.

After the announcement of the science and technology department came out, many enterprises and organizations also regretted not buying first-order iron. The price of 100 million US dollars per gram is indeed high, but it can be accepted with subsidies.

This is equivalent to buying time with money.

First-order iron is a brand new material, and it will definitely be easy to buy after half a year. The time period from now to half a year later is the window period for research and development.

If the relevant research and development can achieve great results within the window period, it will be very easy to seize the opportunity in the market.

Many iron and steel and material companies immediately thought of various ways to purchase first-order iron materials, hoping to not lag behind others in the competition.

They are available.

For example, the subsidy of the Rock Leesman Steel Company is high enough to sell some of its materials to the outside world, but the price is not cheap.

One gram is 100 million US dollars, and the subsidy is 10,000 grams, which means that the price of one gram is about 10,000 US dollars.

When it is sold to the outside world, it becomes a '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 is also centered around the announcement of the science and technology department, and many people are discussing the mass production of first-order iron--

"The technology improvement of the Anti-gravity Behavior Research Center is too fast, so it's mass-produced?"

"I remember the first time I heard about first-order iron. It was said that it was worth 100 million US dollars per gram three months ago, but now it is mass-produced!"

"From a theoretical point of view, first-order iron is the future cosmic material!"

"Using future materials now is very sci-fi to think about, but I heard a physics professor say that the annihilation theory overturns the theory of the existence of dark matter, and believes that the strong annihilation force field in the universe may exist in high-energy nebulae or black holes, so the universe There is also first-order iron in

"Even if it exists in the universe, it doesn't exist on 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 usher in revolutionary progress in steel alloys!"

"However, it is still too expensive, and it can only be used for high-end materials for the time being, such as aerospace, military and other high-end fields."

"Actually, I was quite disappointed when I heard the news. A few months ago, I heard that it was worth 100 million dollars per gram. At that time, I was still thinking about buying a few grams of first-grade iron and making a ring for my girlfriend. , that is definitely the most expensive and durable ring!"

"It's okay now, one gram is more than ten thousand dollars, and when I decide to get married, I will give you a first-grade iron ring..."

"Upstairs, and upstairs upstairs, wake up!"

"Don't sleep!"

...

Wang Hao didn't care about the announcement of the science and technology department, nor did he care about the international reaction to it.

because……

The publication of the results has only just begun, and it hasn't even begun yet.

Now it is only confirmed that the first-order iron can be produced in large quantities, and their main achievement is the discovery of the enhancement of the ionization characteristics of the magnetized lithium element compound.

Going a step further, it is possible to discover first-order lithium.

It is a pity that the vacuum and precision equipment of the material testing center have not yet arrived, and the existence of first-order lithium can only be inferred through some simple experiments, and precise separation and measurement experiments cannot be done.

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, together with Paul Phil-Jones, Helen, Ding Zhiqiang and others.

Specific magnetic field, relevant experiments have been carried out, but there is no discovery for the time being.

The speed of the science and technology department is still very fast, and the advanced materials research group was established immediately. The research group belongs to the annihilation force field experiment group, and the person in charge is Academician Zhang Tiejun, an electromagnetic expert of the Academy of Sciences.

Immediately after the establishment of the research group, the first experiment was carried out, which was to conduct electromagnetic induction experiments using first-order iron as a conductor.

To put it simply, the first-order iron is made into a coil, and the magnetic field appearing in the coil can be studied after power supply.

However, a series of basic physics experiments have not found any particularity in the magnetic field excited by the first-order iron.

This has also stalled the research on specific magnetic fields.

The question that Wang Hao discussed with several people was, "If the specific magnetic field exists, what kind of performance will it have?"

It is also a headache to find no inspiration after several days of research.

Several people simply moved to an office, and while they were doing their own work, they discussed together if they had any ideas.

in the office.

Both Wang Hao and Helen were looking at the information.

Ding Zhiqiang stared at the phone with his head down, his fingers kept moving on the screen, and at the same time he looked a bit like a thief, occasionally looking up and down.

When he found that no one noticed him, he took a long breath and continued with his own business.

Paul Phil-Jones leaned back on the seat, drinking coffee leisurely, and sometimes glanced at the computer screen, typed a few words and chuckled, as if he was chatting with other people.

At this time, a new reminder popped up in the mailbox.

He clicked in without haste and took a look, his face suddenly became serious, and his eyes widened immediately.

"Boom!"

Paul Phil Jones stood up suddenly, slapped the table with both hands, and asked Wang Hao loudly, "Wang Hao, have you received it?"

"What?"

"Nobel!"

Paul Phil-Jones walked over, waving his hands excitedly, "Nobel! Nobel! Me, you, and He Yi from the physics lab, the three of us!"

"Won this year's Nobel Prize in Physics!"

Wang Hao also immediately opened the email to check.

Chen Mengmeng suddenly pushed the door open and walked in. She handed the phone to Wang Hao expectantly, and explained, "Mr. Anderson from the Nobel Committee."

Wang Hao answered the phone and said, "Mr. Anderson, hello."

A middle-aged 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 on Physics."

"It's really not easy to contact you. I called the technology department and transferred it three times..."

Anderson said a word, and then said, "Okay. On behalf of the Nobel Committee, we are honored to inform you that you have won this year's Nobel Prize in Physics!"

"congratulations!"

"..."