"He's talking about reinforcements! I thought he was just sending some regular soldiers to help with security."

Geng Rui smiled slightly, and Xing Baohua took the opportunity to introduce Xie Yingying to her: "She's my secretary. If you can't reach me, just contact her anytime. I'll teach her how to read garbled messages later."

"Hello, Geng Rui, the leader of the technical team."

Xie Yingying quickly replied: Hello.

The convoy arrived safely at the security studio near the server room.

After moving the stuff in, the space here feels cramped. There's no way around it; the place is only so big. If we wanted to make it bigger, we'd have to move to another place, and it's not worth all that trouble.

After the convoy left, the guards stayed behind and dispersed, with both visible and hidden sentries assigned. At this time, two tour buses had been arranged around the security office.

Although it's a bit far from the safe house, only about 300 to 500 meters away, there's no way around it because parking spaces are hard to find.

This bus is for the guards to rest in. The officers who are relieved of their duties, both visible and concealed, can rest inside.

Xing Baohua felt that she was the most tired one. She had been a little cautious just now, but the drowsiness came over her suddenly.

Yawning, he had everyone set up the equipment, gave them instructions on how to remove the virus, and said he would handle the rest after dawn.

The security studio only has one small room as a rest area, with only two bunk beds for people to take turns resting.

Xing Baohua didn't want to take up their rest time, nor did he want to go home, so he found a slightly better hotel nearby and booked four or five rooms for his bodyguards to rest in.

It hasn't been easy following him through all this since yesterday.

Those guards who fall permanently are taken care of by designated personnel, and the compensation they receive is substantial.

In addition, there is an extra compensation, which is calculated on an average basis and paid annually for expenses such as children's schooling, elderly care, and medical expenses.

The security and logistics team will leave their phone number and mailing address. If you encounter any problems at home, you can contact the logistics team for assistance.

If we can do all these things so that the guards have no worries, what is one life?

The next day, Xing Baohua, having rested well, rushed to the safety studio. Although there were only a few additional staff members, they were highly efficient.

After assigning tasks to everyone, Xing Baohua now has some free time to analyze documents. It's like reading academic papers, which is quite tedious because there's a lot of stuff he doesn't understand.

His biggest headache is abbreviations, whether in physics or chemistry, because he can't understand them.

If you can't understand them, just skip them and find the ones you can. They're all low-level superconducting material test reports, and some are even just data values.

Looking at this for more than an hour will give you a headache.

There's no other way; I have to do this myself. No one else can do it. I have to say, I need to find some help!

Call Captain Han and ask him to send two people from the superconducting material field to come over.

Next, Xing Baohua was surprised to see experimental data on the magnetic properties of superconducting materials. The experimental data showed that superconducting materials could be used to manufacture high-strength magnets, and this principle could also be used to create ultra-strong magnetic fields.

This thing has nothing to do with Xing Baohua for the time being. If there is any connection, it is with Nikon in certain medical fields.

An optical device and a super-strong magnetic field, combined, can create images for magnetic resonance imaging (MRI).

He read more than a dozen more, including an experimental report on a particle accelerator. This was beyond Xing Baohua's imagination; it was better not to read it since it was in a different field.

After lunch, Geng Rui tossed me a file after it had been scanned for viruses. Judging from the file size, it was probably a long document.

To everyone's surprise, once Xing Baohua opened it, she couldn't take her eyes off it.

This can be considered a thesis, or it can be considered a source of speculation. It involves making a feasibility study based on existing contemporary materials.

On the fabrication of quantum CPUs.

Anyway, judging from the title, that's roughly the idea. Xing Baohua continued reading. First, the author explained what quantum mechanics is and quantum superconducting materials. The author cited a study conducted by an IBM overseas laboratory in 1986 that discovered a composite material made of copper oxide and rare earth elements that could achieve superconductivity at liquid nitrogen temperatures, close to absolute zero.

Because this newly discovered superconducting material has demonstrated zero resistance in experiments, current can be transmitted without loss within the superconductor. This means that energy loss during power transmission can be significantly reduced, improving energy efficiency. Furthermore, it indicates that the superconducting material can withstand higher current densities, resulting in greater transmission capacity.

Xing Baohua was shocked. Just this one report alone could change the landscape of the semiconductor industry.

This guy has always worked in semiconductors, and he's never seen anything like this before. It must have been suppressed by those big semiconductor manufacturers for thirty or forty years! Anyway, he'd never even heard of it back then.

Why is this considered a speculative paper? After reading a third of it, I began to understand it a little. The beginning is all about materials science and data comparison, while the latter part is about developing quantum superconductivity based on the properties of materials.

Developing an ultra-powerful quantum superconducting CPU by combining data with theory.

The following part was a conceptual article. Only after reading the end did Xing Baohua realize the importance of this thing; this expert was developing equipment for manufacturing quantum superconducting chips, commonly known as a master chip.

Next, quantum superconducting materials are materials with extremely low electrical resistance and the ability to achieve superconductivity at extremely low temperatures. If used to manufacture CPUs for high-performance computers, they could be tens or even hundreds of times faster than semiconductor CPUs.

Based on existing superconducting materials, and after multiple data comparisons and experiments, it was found that the only suitable materials for making quantum superconducting CPUs are copper oxide and iron-based superconductors.

This iron-based superconductor left Xing Baohua completely baffled, and he could only search for the answer himself in the end.

My dear reader, there's more to this chapter! Please click the next page to continue reading—even more exciting content awaits!