"Detection of the status of various components of the star imitator!"

Exit the stellar imitation device area, close the radiation-proof sealing door, and all researchers are in place, and Zhang Qing issues a test order before the power-on test.

"The track sealing detection is normal!"

"The external magnetic field coil detection is normal!"

"The sensing component detection is normal!"

"The filter component detection is normal!"

"The temperature control component is detected normally!"

"The microwave heating component is properly inspected!"

......

The notification sounds from various scientific research groups came over, and all areas of the realistic imitation star device model diagram on the large screen were lit up with green lights. Looking at the imitation star device behind the thick radiation-proof glass next to it, Zhang Qing took a deep breath and said, "The first power-on test of imitation star device tomorrow will begin!"

The instructions were issued. After training from Map Laboratory, the laboratory researchers were somewhat unfamiliar but firmly began to start the stellar imitator test according to the process.

Protective gas filling, start the pressure measurement procedure, liquid helium infusion, the temperature displayed by the sensor drops rapidly until the outer magnetic field coil reaches the critical superconducting temperature, and then the circuit valve opens, and a powerful current flows through the coil, and an invisible magnetic field is generated in the inner wall track...

Zhang Qing stared at the parameters that were constantly jumping on the screen. The control program of the imitator controlled the shape of the magnetic field. When the intensity and shape reached the predetermined value, Zhang Qing ordered in a deep voice: "Inject helium!"

"yes!"

The experimental team quickly responded and ordered it to be sent to the stellar imitator, and a very small amount of helium was injected into the internal orbit of the stellar imitator through the internal catheter.

The microwave heating component is started, and the temperature of the thin helium that is spreading is rising sharply. The electrons begin to break free from the nucleus, dissipating into plasma, being squeezed into the middle by the magnetic field, forming an orange-red ribbon that is slowly twisting and flowing, and the most terrifying power of the planet is brewing on it!

"yeah!"

Observing through the internal sensing components of the stellar imitator, when the orange-red ribbon appeared, some researchers could not suppress their excitement and shouted, but the next moment, the sound was forcibly suppressed. Everyone held their breath and looked at the ribbon, fearing that their breath would be heavy and they would blow it out.

The ribbon twisted its beautiful figure and flowed for several seconds. In less than 3 seconds, it suddenly went out like a candle in the wind...

The operating stellar device gradually stopped, the microwave heating component was turned off, the current of the external magnetic field superconducting coil decreased, and the invisible magnetic field was constantly calming, but at this moment the entire laboratory started to move instantly.

"Collection of data and check the equipment's condition."

Zhang Qing immediately issued an order, and everyone was a little busy collecting and organizing the data just now. Several people wearing thick protective clothing also opened the radiation-proof isolation door and went into the imitation device placement area to check the status of the imitation device.

Behind him, Lu Yi, who witnessed the exciting experiment in less than two minutes, saw Zhang Qing's orderly arrangement, couldn't help but smile on his face and quietly turned around and walked towards the elevator.

When he arrived at the materials laboratory on the third floor, Lu Yi nodded to several researchers who greeted him and found Hu Feng, who was observing a microscopic form of a material through a penetrating electron lens.

"Brother Hu, how is the situation?"

Hu Feng is worthy of being a scientist with a potential of up to 95.4. In more than a month, after a group of doctoral researchers added to the laboratory, he successfully made the corresponding materials based on the superconducting phenomenon of two-dimensional overlap of graphene under his leadership.

However, this expensive material of gold of gold has no practical significance for the time being, except for obtaining a few papers and gaining a certain reputation for the laboratory.

When single-layer graphene is compared to Park K-K cards, superconductivity will occur at two-dimensional overlap angles. The figurative point is that Park K-K cards stand face to face like dominoes, so that superconductivity will appear between two Park K-K cards at a specific distance and angle.

But how do you get this thing longer?

How to maintain the overlap angle between each poker while increasing length and ensure that the superconducting phenomenon is not lost?

This is not as simple as stacking a pile of Park Cards or pancakes.

At present, the material produced in Lu Yi's laboratory is only 59 atoms long. Not to mention actual use, it can be seen under a microscope.

During this period, Hu Feng has been trying to find ways to find ways to deduce lengths on vertical superposition, or lead the search for whether graphene is likely to have superconducting under other structural forms that are easier to actually use.

"Boss, there is no superconducting phenomenon in other structural forms of graphene."

Hu Feng shook his head. During this period, he tried various structural forms under his leadership. After testing, he finally confirmed that graphene materials only have superconducting in two-dimensional overlapping structures, which is not good news for the laboratory.

"Reality has begun to adjust the focus of research in the laboratory, focusing on how to expand the longitudinal superposition length of graphene, and to separate some of the research resources to invest in the research of other metal superconducting materials, as well as the research of superconducting materials of other element families."

Hu Feng did not forget the purpose of the Materials Laboratory, which was to seek better application of superconducting materials to controllable nuclear fusion.

Therefore, after confirming that other structural forms of graphene did not have superconducting, he immediately turned this part of the resources to the study of other superconducting materials, rather than continuing to deepen the efforts to explore the interests and potential of materials with other structural forms of graphene.

"Does there be any way to try molds and fix them in series?" Lu Yi thought for a while and put forward two ideas.

Since vertical superposition of derivative lengths is required, graphene alone cannot be used, you can use external molds or external "fine sticks" to fix the thing in a longitudinal overlapping form.

Simply put, if you compare a single layer of graphene to Park Kick, you can make a wooden board, and there is a gap at a distance on the board just enough to not insert the Park Kick. These thin slits are spaced as single atomic layers, so that Park Kick can overlap the vertical direction of the single atomic layers.

Or just make a hole in the Park card and string it together with a thin stick, so that it can overlap vertically.

"Forehead......"

After listening to the idea that Lu Yi thought of, although he understood that Lu Yi did not study materials but physics, Hu Feng still twitched a little awkwardly and said, "Boss, microscopic and macroscopic are different. This method can be used for macroscopic material processing, but graphene requires single-layer atomic layers to overlap vertically before superconducting occurs.

At the microscopic level of materials, it is difficult to maintain the stability of the single-atom layer structure when you refer to "molds" and "fine sticks". Its structural form will change over time, thus unable to ensure the angle of longitudinal overlap of graphene, resulting in the loss of superconducting effect."

Macro and atomic microscope are completely different worlds. In the macroscope, an object is very stable, but it is always deforming at the atomic level.

For graphene, which requires the single-layer atomic layer to overlap longitudinally, unless the shape between the single-atomic layer is very special, it is impossible to fix the single-layer graphene and ensure the superconducting characteristics of graphene.

"The structure of a single-atom layer cannot be maintained."

Lu Yi pondered for a moment and suddenly asked, "Have you tried Bucky tube?"
Chapter completed!