Nanke Dream World Truth City.

Institute of Geology of the Academy of Sciences.

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

When I opened it, I found that it was a letter to assist in research, mainly about the neutrino flow emission trajectory, determining the radioactive layer in the inner strata of the Blue Star, and establishing a ground emission point that avoids the open radioactive bottom layer.

Hey the highest secret

Feng Qingyun was confused when he saw this. What is the best thing about neutrinos and stratigraphic radioactivity?

Moreover, the invitation letter was signed by Huang Mingzhe and Zhang Tingyu. No one in the domestic scientific community did not know Huang Mingzhe, and Zhang Tingyu is the deputy director of the Institute of High Energy.

This is the reason Feng Qingyun is confused. He, a person who works in physics and mathematics, has also started playing geology.

However, since it was the highest secret, he was also very sensible. He clicked to accept the invitation, and then his figure disappeared into the City of Truth.

Appears in a virtual space specially set up by Huang Mingzhe.

There were already many people busy in this virtual space, and Feng Qingyun also saw two other researchers from the Geology Research Institute.

Seeing that the relevant personnel had arrived, Huang Mingzhe said straight to the point: "First of all, thank you very much for taking the time to come over from your busy schedule. Next I will talk about the task..."

He briefly explained the task this time, which is to establish a planetary launch point model for a neutrino emitter. These launch points have two requirements.

First, the installation area is relatively hidden and safe.

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

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

"In the formation, the radioactivity of the earth's crust is very low, but there is a soft-stratum between the Moho interface at the top of the upper mantle and the crust. This is the radioactivity layer closest to our ground."

Feng Qingyun said while projecting the sectional view of Lanxing in front of everyone.

The depth of the asthma is between 50,250 kilometers and can be classified as part of the upper mantle. It is the place where magma is generated and a strata with highly concentrated radioactive elements.

The highly concentrated radioactive elements release energy, which heats silicon magnesium aluminum oxide compounds to form magma.

This also explains why many natural marbles have severely exceeded the radioactivity, and magma is also the reason for the formation of many metal deposits, especially those radioactive minerals, which are mostly wrapped in magma on the earth's crust.

"Then everyone will start to calculate the appropriate neutrino emitter installation point according to the current upper limit of the forthoses." Huang Mingzhe ordered.

"no problem."

Everyone acted according to their profession.

The upper limit of the forrospheric layer is about 50 kilometers from the ground, but this number is an average. The oceanic crust is relatively thin and the continental crust is relatively thick. These factors need to be taken into account.

The average thickness of the earth's crust is about 17 kilometers, of which the continent's crust is relatively thick, with an average of about 3941 kilometers. The crust in the alpine and plateau areas is thicker, with a maximum of 70 kilometers; the crust in the plains and basins is relatively thin.

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

The Qinghai-Tibet Plateau is the thickest place with the blue star crust, which is more than 70 kilometers thick; while the crust in the mid-Atlantic underwater valley near the equator is only 1.6 kilometers thick; the deep trench in the eastern deep sea trench in the Pacific Mariana Islands is the thinnest place and the thinnest place on the blue star.

Since the location of the neutrino emitter is definitely on a mountain or plateau, the neutrino flow trajectory cuts into the deepest part of the earth's crust and is set as: the deepest part of the continent's crust direction is 80 kilometers, and the deepest part of the ocean's crust direction is 30 kilometers.

According to the ground curvature of Blue Star and cutting into the depth of the crust, it can be calculated that the maximum coverage distance facing the continental crust is about 1,200 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 still many things to consider when laying on the ground.

For example, the neutrino emitter set on the Qinghai-Tibet Plateau has a maximum coverage range of 2,000 kilometers.

The coverage range of the neutrino emitter set on Wuzhishan, Qiongzhou can reach about 1,100 kilometers.

The reason why the actual coverage distance is larger than the calculated coverage distance is mainly because the altitude of the mountains is supported. For example, the highest peak of Wuzhi Mountain in Qiongzhou is 1,867 meters, and the neutrino transmitter is arranged at an altitude of 1,200 meters, which can naturally increase the direct coverage distance.

This is a ground-oriented setting. If it is facing the sky or even outer space, according to Huang Mingzhe, the maximum impact distance can reach around 300,000 kilometers.

This range has fully covered the Blue Star's low-Earth orbit and synchronous orbit, and even some lunar orbits will be affected.

Among the researchers present, there were many big guys from geology and astronomy, plus the assistance of supercomputing and virtual simulation space.

Soon they completed the construction of the planet model.

The arrangement of the center of the edge line is formed.

The borders are arranged: Qiongzhou Wuzhishan launch station, Fuzhou Daiyunshan launch station, Qilu Province Jiaodong Peninsula launch station, Jilu Province Laoyeling launch station, Meng District Daxinganling launch station, Krainian District Tianshan launch station, Snow District Tanggulashan launch station, Yunzhou Province Wuliangshan launch station, a total of eight neutrino launch stations.

The central area is set up to defend against the sky and outer space. There are four launch stations in total, namely: Hefei, Huizhou, Luliang, Jinzhou, Hanzhong, Qinzhou, and Hengyang, Hunanzhou.

These neutrino launch stations cover most of Asia, except for western West Asia and the Southeast Asia South Asia South Asia, other places are covered.

The sky and outer space are covered with no blind spots, and they directly launch high-energy π neutrino flows into outer space on a large scale. Any nuclear weapon that breaks into outer space will directly turn into duds.

Of course, this defense system can only protect most of Asia and cannot prevent the United States and the Western Union from self-destructing itself in place.

Unless the neutrino emitter is placed in outer space, the nuclear reactions around the world can be suppressed without blind spots.

Unfortunately, according to calculations, a large-scale neutrino emitter consumes 8012 billion kilowatt-hours of electricity per year.

Obviously, satellite solar panels cannot provide such huge amount of electricity for the time being, and the progress of the Jinwu Plan’s miniaturization project is relatively slow.

In fact, the miniaturization project of nuclear fusion reactors has an impact not only on neutrino emitters, but also on the gamma-ray lasers in the Phoenix plan.

After all, a large-scale high-energy gamma-ray laser must be an electric tiger, and solar panels cannot support this energy consumption at all.

Of course, the arrangement of neutrino emitters will inevitably bring about another serious problem.

If these neutrino launch stations in China are fully powered, they will be covered within the range, not only will the nuclear weapons become duds, but the nuclear power plants that are operating will also be paralyzed instantly.

Even nuclear fusion reactors will be affected because neutrons cannot be generated, which will make the chain reaction of nuclear fusion reactors difficult to sustain.
Chapter completed!