Ultra-Dimensional Technology Era

If parity was conserved from the beginning of the universe, our universe today would be stillborn, without defective particles, such as causing the same amount of matter and antimatter, and the consequence would be that matter and antimatter would annihilate together, leaving only photons and dark matter in the universe .

It is the existence of this kind of defect that makes positive matter a little more, which makes the universe give birth to celestial bodies and life.

Huang Mingzhe uses high-energy π neutrinos to continuously replenish the defects of particles, so that the atomic nucleus is temporarily in a stable state, that is, temporarily loses radioactivity.

When radioactive elements lose radioactivity, the consequence is that they cannot undergo nuclear fission temporarily. Although nuclear fusion will not be directly affected, don't forget that there is currently no way for humans to directly carry out nuclear fusion.

Under normal circumstances, hydrogen bombs are detonated by built-in small fission bombs to further stimulate nuclear fusion reactions.

Zhang Tingyu had obviously thought of this, no wonder Huang Mingzhe wanted to conduct experiments in this kind of secret base, if this thing exploded, the consequence would be the complete collapse of the fragile balance of the world.

Especially the ghost particle characteristics of neutrinos, there is almost no substance that can block neutrinos, even on the other side of the blue star, neutrinos can still easily penetrate the crust, mantle, and core.

Of course, the consequences of launching high-energy π neutrinos against the earth's crust may be very serious, because the interior of the blue star is a huge radioactive nuclear battery.

Once the radioactive activity of the earth's core is stopped for a long time, it is very likely that the temperature of the blue star will drop rapidly, triggering the overall cooling of the blue star, and a real ice age.

Huang Mingzhe looked at the data and decided to proceed to the next stage of the experiment.

A miniature nuclear reactor was pushed onto the launch track. This miniature nuclear reactor has very little nuclear fuel, but it is just right for testing.

"Boss Huang, everything is ready."

"Then let's get started!"

"it is good."

Zhang Tingyu was very excited. He was staring at the nuclear reactor, and the computer on one side was displaying the situation of the nuclear fission reaction.

As the flow of high-energy π neutrinos washes past, the nuclear fission reaction of the micro-nuclear reactor stops in an instant, and all nuclear fission reactions stop.

"It's amazing." Zhang Tingyu was so excited that his body trembled.

Although Ye Qi on the side didn't understand the scientific principle, he still knew that the micro-nuclear reactor stopped the chain reaction.

This invention is no less than the realization of controllable nuclear fusion, because this thing can suppress nuclear fission reactions, which means that nuclear weapons will lose their effectiveness.

The test continued for more than a week, and Ye Qi even transported a miniature nuclear reactor 75 kilometers away through secret internal transportation. High-energy π neutrinos can also suppress nuclear fission reactions at this distance.

As for the distance beyond this, due to the limitation of the surface curvature of the blue star, about 80 kilometers is now the limit of the linear distance of neutrinos.

Of course, this straight-line distance cannot be changed. For example, by directly penetrating the crust or even the mantle, the straight-line distance of neutrinos can be extended.

However, research on this aspect needs to be considered in the long run. After all, there may be a large amount of radioactive elements in the lower mantle, and high-energy π neutrinos will block radioactivity. If they are accidentally released, it will really be over.

Chapter 145 Defense Model

Nanke Dreamland - City of Truth.

Institute of Geology of the Academy of Sciences.

Feng Qingyun, a geologist on duty in Nanke Mengjie, suddenly received an email.

When I opened it, it turned out to be a letter of assistance for research, mainly about the emission trajectory of the neutrino stream, determining the radioactive layer of the blue star's inner strata, and establishing a ground emission point that avoids the radioactive bottom layer.

hey top secret

Seeing this, Feng Qingyun was at a loss in his mind. What's the matter with neutrinos and formation radioactivity involving top secrets?

Moreover, the signatures on the invitation letter were Huang Mingzhe and Zhang Tingyu. Everyone in the domestic scientific circles knew Huang Mingzhe, and Zhang Tingyu was the deputy director of the Institute of High Energy.

This is why Feng Qingyun is confused. He is a physics and mathematics student, but he also plays geology

However, since it is the top secret, he is also very knowledgeable, click to accept the invitation, and then his figure disappeared in the city of truth.

It appeared in a virtual space specially set up by Huang Mingzhe.

In this virtual space, many people are already busy at this time, and Feng Qingyun also saw two other researchers from the Institute of Geology.

Seeing that the relevant personnel had arrived, Huang Mingzhe said straight to the point: "First of all, thank you very much for taking time out of your busy schedule. Next, let me talk about the mission..."

He briefly explained the mission this time, which is to build a model of a neutrino launcher's launch point on the planet, and these launch points have two requirements.

First, the installation area is relatively hidden and safe.

Second, let the neutrino flow cover the largest area as much as possible without passing through the radioactive layer of the formation.

Although he didn't understand why he had to avoid the radioactive layer in the ground, Feng Qingyun still said conscientiously:

"Among the strata, the radioactivity of the crust is very low, but there is an asthenosphere between the top Moho interface of the upper mantle and the crust, which is the closest radioactive layer to our ground."

As Feng Qingyun said, he projected the profile of Lan Xing in front of everyone.

The asthenosphere is between 50 and 250 kilometers deep, and it can be attributed to a part of the upper mantle. It is the place where magma is generated, and it is also a layer with a high concentration of radioactive elements.

The highly concentrated radioactive elements released energy, and the radioactive energy heated the silicon magnesium aluminum oxide compound to form magma.

This also explains why the radioactivity of many natural marbles seriously exceeds the standard. In addition, magma is also the reason for the formation of very polymetallic deposits, especially those radioactive minerals, most of which are carried by magma to the crust.

"Then everyone will start to calculate the suitable neutrino launcher installation point according to the current upper limit of the asthenosphere." Huang Mingzhe ordered.

"no problem."

Everyone acted according to their profession.

The upper limit of the asthenosphere from the ground is about 50 kilometers, but this figure is an average value. The oceanic crust is relatively thin, while the continental crust is relatively thick. These factors need to be taken into consideration.

The average thickness of the crust is about 17 kilometers, and the thickness of the continental crust is relatively large, with an average thickness of about 39-41 kilometers.The crust in high mountains and plateau areas is thicker, up to 70 kilometers; the crust in plains and basins is relatively thin.

The oceanic crust is much thinner than the continental crust, only a few kilometers thick.

The Qinghai-Tibet Plateau is the thickest place on the Blue Star, with a thickness of more than 70 kilometers; while the crust in the mid-Atlantic submarine valley near the equator is only 1.6 kilometers thick; the deep ocean trench in the eastern part of the Mariana Islands in the Pacific Ocean has the thinnest crust, which is the upper crust of the Blue Star. The thinnest place.

Since the location of the neutrino emitter must be on a high mountain or a plateau, the neutrino flow track cuts into the deepest part of the crust, which is set to be 80 kilometers deep in the direction of the continental crust and 30 kilometers deep in the direction of the oceanic crust.

According to the ground curvature of Blue Star and the depth of the crust, it can be calculated that the maximum coverage distance facing the continental crust is about 1200 kilometers, and the maximum coverage distance facing the ocean is about 900 kilometers.

Of course, each region can adapt to local conditions. After all, the thickness of the crust in each region is different, and there are many situations that need to be considered for the arrangement on the ground.

For example, the neutrino emitter installed on the Qinghai-Tibet Plateau has a maximum coverage of a radius of 2000 kilometers.

The neutrino launcher installed on Wuzhi Mountain in Qiongzhou can also cover a range of about 1100 kilometers.

The reason why the actual coverage distance is larger than the calculated one is mainly due to the altitude of the mountains. For example, the highest peak of Wuzhi Mountain in Qiongzhou is 1867 meters, and the neutrino emitter is placed at an altitude of 1200 meters, which can naturally increase the direct coverage distance.

This is the setting facing the ground. If it is facing the sky or even outer space, according to Huang Mingzhe's calculation of the high-energy π neutrino depletion rate, the maximum impact distance can reach around 30 kilometers.

This range has fully covered Blue Star's low-earth orbit and synchronous orbit, and even a part of the moon's orbit will be affected.