The normal-temperature antigravity properties of cwf-018 are already amazing enough, but what arouses widespread heated discussion at home and abroad is still behind. “After research and discussion, we decided to make the antigravity technology related to cwf-018 public.”

"The detailed report on anti-gravity technology for cwf-018 will be published on the download page of the website, and anyone who visits the website can download and watch it."

"At the same time, related research papers will be published in the journal Annihilation Physics and Theory..."

The news released by Superconducting Materials Industries shocked the world.

The first is room temperature anti-gravity technology.

There is also technology to achieve normal temperature anti-gravity, but it uses high-pressure mixed materials, that is, a lot of materials are in high-pressure pipelines.

High pressure is not conventional ‘high pressure’.

The high-pressure environment in experimental physics research often refers to standard atmospheric pressures of hundreds of thousands or millions of times or more.

The high-pressure pipelines used to generate strong annihilation force fields are made of special alloys that can withstand ultra-high pressure. The pipelines themselves are very, very expensive.

The original 'normal temperature anti-gravity' technology was just exchanged for a special 'high pressure' environment.

It's different now.

CWF-018 is a metallic superconducting material that does not require a special high-pressure environment. It is extraordinary to be able to achieve anti-gravity at room temperature.

Although the anti-gravity strength at room temperature is only 2.65%, it is already very impressive.

In addition, Superconducting Materials Industrial Company also directly disclosed the anti-gravity technology for cwf-018, which means that other teams do not need to do research. They only need to purchase cwf-018 materials and then use the disclosed technology to create an anti-gravity field.

.

This undoubtedly greatly lowers the threshold for anti-gravity technology research.

Superconducting Materials Industry Company not only released information, but also held a press conference, where domestic and foreign reporters could come for interviews.

Wang Hao appeared at the press conference and explained cwf-018.

Later, he was interviewed by a reporter. When asked, ‘Why would we disclose technical information?’, he said calmly, “Our purpose is to enable more scientists and research teams to study anti-gravity technology.”

"The current research threshold for anti-gravity technology is very high. Only those powerful institutions and teams can conduct research, which greatly limits technological progress and development."

"After we discovered the characteristics of cwf-018, we decided to popularize the technology so that small physics laboratories can also participate in research."

"The annihilation force field is a new direction in physics, and annihilation technology is a new direction in scientific development. Only with the participation of more scientists can the new research direction produce more results."

"cwf-018 is just the beginning!"

Wang Hao said seriously, "Our next step will be to continue research on the superconducting properties of first-order iron. The goal is to develop materials that can create an anti-gravity field with a strength exceeding 30%. Similarly, we will also disclose relevant technologies...

…”

That last sentence is amazing.

Those scholars who are engaged in annihilation force field research all know that 30% of the antigravity strength is a critical line. When the field force reaches 30% strength, the magnetization effect on matter can be found when superimposed.

If there is a premise that "the superconducting state has not been reached", several anti-gravity devices can be stacked together to create a strong annihilation force field.

That is a strong annihilation force field!

Now Wang Hao actually said that the research and development goal is to create a 30% anti-gravity field, and then will the technology be made public?

this……

is it possible!

No matter what happens in the future, room-temperature antigravity technology has been made public, and many small scientific research institutions, physics laboratories and scientists will definitely benefit from it.

They can also participate in antigravity research.

For a time, the academic world was full of praise for Wang Hao, and no matter how harsh the media was, they had to add the word "great" in front of Wang Hao's name.

"Wang Hao is a great scientist!"

"The annihilation force field research he led contains huge scientific research, economic and even strategic significance, but he chose to disclose the normal temperature anti-gravity technology so that more scientists can participate."

"This is a huge contribution to scientific research and development and a great act for the development of human science."

"This is Wang Hao..."

"Science has no borders, which is clearly reflected in him. He is the kind of great person who is not limited by national boundaries and has humanistic thinking!"

"..."

"What's interesting is that Amrican, which has always advocated an open attitude toward science, proposed the "Groom Lake Project" to support the research of strong annihilation fields, but completely excluded scientists from other countries, including O State...

"

The comparison came out immediately.

…

Nevada, Virginia City.

In an office in a building, several top scholars were discussing a document related to technical directions, called "Feasibility Analysis of Creating Strong Antigravity Fields from Upgraded Elemental Alloys."

Some scholars hold opposing views.

Among them is George Weeks, a materials expert at Argonne Laboratory, who firmly believes that advanced element alloys cannot create a strong anti-gravity field.

"We have done several experiments."

"The increased electrical conductivity of first-order iron may increase the critical temperature of superconductivity, but the magnetization effect of alloys made of first-order iron is not good."

"This shows that first-order iron is resistant to strong annihilation fields, and this resistance is likely to affect the creation of annihilation fields."

"Of course, it's just a simple inference."

Another scholar, Roster Brooke of Fermilab, objected, "Magnetization resistance doesn't mean anything. First-order iron is created by a strong annihilation force field."

"As for the alloy..."

"This is a research direction. We can study complex element compounds, and of course we can study alloys..."

At this time, Gamov Shapley suddenly spoke loudly and said, "Whether it is compounds or alloys, as long as they are related to advanced elements, we must study them."

"Now I am more sure that our main direction is correct."

“Check out the latest news!”

He took a deep breath and said, "Anti-gravity at normal temperature! First-order iron has actually created superconducting materials that support anti-gravity at normal temperature!"

"What does this mean?"

“This shows that we are on the right track!”
Chapter completed!