The Black Technology Era of Xueba

Chapter 264 Captured Electrons

Deep in the laboratory, the micronucleus battery, which has been built according to the drawings, is in the central glass room.

The glass is lead-containing explosion-proof, and another function is to prevent radiation.

Although the C14 micronuclear battery does not have much radiation, according to the operation guide, the necessary protective measures are still required.

The volume of the battery is not large, it is a cubic transparent box with a side length of ten centimeters.

In the case that the silicon carbide is not folded, the battery of this volume is also very small.

The core part in the middle of the box is a pure C14 crystal, which is half a carat size, and the entire box has been engraved with electronic pits and circuits. The electronic pits capture the electrons overflowing from C14 and can supply power to the device.

A laboratory notebook is connected to the outside of the battery, and the notebook computer uses a low-power Mingqiu quantum chip. The power consumption of the laptop is 15W and the input voltage is 10V.

The C14 micronucleus battery will release power all the time, it will not change depending on whether you use the device or not, because the decay of C14 is going on all the time. But a switch on the device can determine whether you use electricity or not.

Professor Xu, this place is ready, do you want to turn on the equipment? said the experimenter.

Xu Limin looked at Xiao Ming, Xiao Ming nodded.

Turn on the switch. Xu Limin said into the microphone.

Received, turn on the switch. The experimenter gave feedback immediately after receiving the order.

After the main switch is turned on, the value is read on the meter.

The voltage is stable at 10V.

received.

Current 1.5A, stable.

Received, turn on the computer.

The experimenter activated the power button of the computer, and the computer was successfully charged.

Power on, start, enter the screen of Xiaochu.

The whole process takes no more than three seconds, which is almost a second.

Success!

Success! We succeeded!

The laboratory burst into tears of cheers.

The report ahead was sent immediately. This is the first test of the C14 micronucleus battery, and the first test of the micronucleus battery and the Mingqiu quantum chip.

It works perfectly! Xu Limin handed the report to Xiao Ming and said, The notebook was successfully lit up and running stably.

Xiao Ming didn't worry about whether the micronucleus battery could generate electricity. What he was worried about was whether the micronuclear battery could provide electricity stably. Now it seems that everything is in the plan.

Xu Limin complained: The most power-consuming part of our notebook is the screen, otherwise our power consumption can be reduced.

The quantum chip has combined the performance of the chip and the graphics card into one. In the future, we will not see another graphics card on the computing device with a fan that does not cool down the graphics card.

In fact, as long as the chip has enough performance to handle the display function, there should be no such unconventional hardware design as a graphics card in the world, and there will be no abnormal design such as a chip fan and a heat fan.

The notebook with quantum chip has no graphics card, and the power consumption is of course low. At present, Pangu Technology can achieve the power consumption of less than 5 watts when testing the game violently.

Today's test is to test the battery's performance, so the lab cranks up the power consumption.

However, such power consumption did not meet Xiao Ming's requirements. All Xu Limin said to Xiao Ming at this time: The screen technology has to find a way to deal with it, otherwise we will not be able to make wearable devices.

Xiao Ming just smiled and didn't speak, the micronucleus battery can achieve such a result has already met his requirements.

How long will it take for the silicon carbide structure to fold? Xiao Ming was concerned about this question.

Folding needs to be done in a high-pressure environment, and the device is still in production, and it may take a while.

Xu Limin issued a military order: Give me a few more months, and before June, I will make a complete micronucleus battery.

Xiao Ming said: Old Xu, don't worry too much about this, pay attention to quality and safety, and let the battery run again.

What Xiao Ming cares about is the maximum power that the battery can provide.

Xu Limin said: We are now testing with standard sizes.

The standard test is to use a 10CT size carbon 14 (about 0.02g weight) micronucleus battery to provide the maximum energy per unit time.

This time, instead of using a laptop, the battery forms a simple loop that uses resistance to heat and dissipate energy.

The data obtained in the laboratory is that a standard-sized micronucleus battery can provide a maximum current of 10,000 mA and a rated voltage of 3V to 15V.

A battery with such performance can meet the operation of all mobile devices currently on the market, and can also form a battery pack to power electric vehicles like Panasonic batteries.

If the lab makes a fuss about the folding of silicon carbide crystals, the performance of the battery will be even better.

According to the design principle of the micronuclear battery, the main reason for using C14 as the raw material is that the radiation index is low, which is quite safe and does not require the use of bulky radiation protection devices.

The raw materials of micronuclear batteries can also be replaced. If there is enough space and enough load in the fields of automobiles and spacecraft, the raw materials of micronuclear batteries can be replaced with more efficient nickel 63 and so on.

Xiao Ming said: Lao Xu, don't you want to compete for the Nobel Prize in Physics? No one from Xia has won this honor, and even if there are Chinese people who have immigrated.

Xu Limin was heartbroken. Of course he remembered this incident. During the experiment, he strictly followed the rules and recorded it. His team is also constantly improving the paper on micronucleus batteries.

Capturing electrons with the color centers (electric pits) of silicon carbide semiconductor materials is a difficult problem in physics. Carving circuits on silicon carbide is a problem in global micronucleus physics. After folding the silicon carbide material, the C14 The radiated electrons are all captured, which is also a difficult problem in micronuclear physics.

After all three problems were overcome by Pangu Technology, it brought about a revolution in the energy industry. If none of these problems can win the Nobel Prize, then the Nobel Prize is really not worthy of its name.

Most of the Nobel Prizes are only discovery research, and Pangu Technology is not only discovery research but also applied research!

I think I will tell you about this after the silicon carbide folding experiment is completed. Xu Limin still thought about it and couldn't help saying.

Don't wait. We can try it as long as we have theoretical research results. In addition, we don't have the technology of folding and capturing silicon carbide materials, but we haven't conducted actual experiments, so don't be too concerned.

Xiao Ming said: You show me the paper first. The local team members may not be able to grasp some details.

Young researchers cannot fully meet Xiao Ming's requirements for manipulating and formulating operations into theoretical words.

After I read it, you can publish it directly, and let the world know about Pangu Technology, and let everyone know about Xia Guo's physical level.

Xu Limin said with a heartbeat: I'll do it now.

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