"Why?"

"I also want to join Wang Hao's research group..." Zhang Zhiqiang felt that joining Wang Hao's research group would be a very honorable thing to say.

He has also done research with Wang Hao, but now it is not easy to even do projects together.

He found that he couldn't keep up.

It felt like he was "about to be eliminated by the times", but in fact, he was only thirty-five years old.

So he envied Luo Dayong very much.

Zhu Ping looked Zhang Zhiqiang up and down, holding her chin with her thumb and forefinger, thinking, and nodded, "Your idea is quite good, but there is one thing."

"What?"

"You don't have enough hair." Zhu Ping shook her head silently and walked away.

Zhang Zhiqiang was stunned for a moment, and immediately looked in a mirror and found that there was a place on the top of his head where a large piece of scalp could be clearly seen.

He took a deep breath and stopped thinking about math problems.

math?

Hair is not important!

…

Wang Hao's research group is making very good progress.

Because the shaping of some small modules has achieved certain results, Wang Hao also found a physics laboratory and asked the physics laboratory to conduct AC gravity experiments for verification.

Later, I asked Liu Yunli from Factory 244 to verify it with their experimental team.

Now the research team is mainly focused on shaping the dual-element combination form and making a broader definition based on experimental results to cover all possible element combinations.

Although it has entered the verification stage of research, the research still lacks a key condition - the gap problem in microscopic morphology.

"We have to find this gap problem, otherwise the research is incomplete."

"I believe that the microscopic form composed of any elements cannot be perfect. Since it cannot be perfect, there will be gaps."

"The gaps will be large, small, and in many directions. It may not be one gap, but may be many gaps. At the same time, the microscopic gaps will also be reflected in the experiment. We must complete the expression of the gaps through theory.

.”

"This is the most important part of experimental verification!"

…

In the gap demonstration part of microscopic morphology, the research team's progress is not smooth, because there is no specific data and it is difficult to draw conclusions by relying only on imagination.

They discussed together for two weeks and only completed part of the 'illusion form'.

If we verify these hypothetical forms one by one, it will definitely consume a lot of money and may not yield results.

‘A large amount’ means the funds can easily reach several hundred million or even more.

Research stopped again.

Birkar returned to Capital University, and the others returned to work.

Wang Hao could only stop with regret. Looking at the value of 'Inspiration Value: 97', he only felt very depressed.

It's only three points short of inspiration, but it can't go up.

The ‘gap’ is the key.

He Yi suddenly came to the office that day and said to Wang Hao anxiously, "Have you seen the news?"

"what news?"

"The latest results are reported in Science magazine!" He Yi explained, "The superconducting research team at the University of Chicago discovered the problem you mentioned!"

Wang Hao was stunned for a moment, and couldn't help but stand up and said in surprise, "You mean, you discovered that the superconducting front temperature creates a higher AC gravity field strength?"

"Yes!" He Yi nodded vigorously.

Wang Hao checked the latest issue of Science magazine and saw relevant news.

The superconducting experimental group at the University of Chicago discovered a mixed material of carbon, hydrogen, and sulfur that, when pressurized to 260 GPa, achieved room-temperature superconductivity with a superconducting transition temperature of 15 degrees Celsius.

More importantly, they observed that the AC gravity field intensity reached an extreme value of 18% at 20 degrees Celsius.

At the same time, at a superconducting transition temperature of 15 degrees Celsius, the AC gravity field strength is only 14%.

The former's room-temperature superconductivity is actually not a big achievement, because the pressure of the mixed gas is too high, 260GPa, which is 2.6 million times the atmospheric pressure, and cannot be applied conventionally at all.

In addition, the mixed gas is not a normal superconducting material, and the maximum current it can withstand is too low, far behind ordinary conductors, and there is no possibility of application.

The latter is the most important.

At five degrees Celsius greater than the superconducting transition temperature, the extreme value of the AC gravity field strength was observed, which is definitely a great discovery in AC gravity research.

When interviewed, Thors-Brown, head of the superconducting experimental group at the University of Chicago, said excitedly, "This discovery is very meaningful."

"As long as we study the principle of its emergence and explore the antigravity and superconducting mechanisms, I believe there will be very significant progress."

This new discovery shocked the physics community.

Many Americen media also reveled in this, because they seem to be lagging behind in the field of research on superconducting mechanisms.

The law of superconductivity was developed by Wang Hao.

Wang's geometry has been widely studied by the mathematics and physics circles, and it is hoped that it can be expanded to a higher level to cover complex element combinations in order to analyze the superconducting mechanism.

This is the main direction of research on superconducting mechanisms, all of which come from Wang Hao, or it can be said that all of them come from the Chinese research team.

The superconducting experimental group at the University of Chicago has made a new discovery, which they may be able to use to catch up with China's research progress.

Research on the mechanism of alternating current gravity combined with superconductivity has become a direction that has attracted worldwide attention.

The new issue of "Science" magazine came out and immediately attracted attention from all over the world. There were even many cross-border discussions, which attracted the attention of ordinary people.

The impact of this discovery is naturally great.

On the second day alone, Zhou Minhua, deputy director of the Bureau of Science and Industry, and Academician Wu Hui of the Superconductivity Office of the Science Foundation called Wang Hao to ask about Wang Hao, and then immediately took a plane to Xihai University.

The Bureau of Science and Industry and the Science Foundation are both the higher-level departments responsible for the exchange of gravity research projects.

Zhou Minhua and Wu Hui are both concerned about the same issue, which is, "Will the new discoveries from the University of Chicago promote American's research on AC gravity and superconducting mechanisms to surpass domestic ones?"

Zhou Minhua was even more anxious. After seeing Wang Hao, she couldn't help but ask, "Professor Wang, will this new discovery allow them to make other new discoveries and surpass us?"

"of course not."

Wang Hao chuckled nonchalantly and said, "Director Zhou, you are too worried."

"Why?"

Wu Hui asked with some confusion, "The material has not yet entered the superconducting state, but a higher AC gravity field strength has been detected. It should be an amazing discovery, right?"

Wang Hao pursed his lips, thought for a moment and said, "If you are still worried, it's very simple."

"In this way, I will write down the ratio of the mixed gas. If you follow the ratio and let other experimental groups do it, you should be able to replicate their experiments."
Chapter completed!