Rebirth of the Evil Life

? Cold fusion is achievable!

This was announced by scientists from the United States, Japan and Germany at this year's annual meeting of the American Chemical Society, which was held on March 23, 2009. They have proven in the laboratory that cold fusion is possible.

However, the test results they have obtained so far have certain limitations.

For example, researchers at the Naval Space and Marine Warfare Force Systems Command Center in San Diego said the problem is that measuring instruments cannot detect such small numbers of neutrons. In order to sense such a small mass, the United States uses a specific plastic detector39. Composed of an alloy of nickel and gold inserted into a mixture of palladium chloride and tritium, the detector captures and tracks high-energy neutrons. Researchers say the plastic detector captured many tiny, closely spaced craters, which is conclusive evidence of the presence of neutrons and proves that fusion reactions can occur at room temperature.

Other researchers at the meeting also presented evidence of cold fusion: Antoni Ranillo of Italy's National Institute of Nuclear Physics said he had discovered large amounts of heat and nitrogen. Researchers in Hokkaido, Japan, said they also found large amounts of heat and gamma. Evidence of radiation release. These researchers are conducting further exploration, hoping to better understand the cold fusion process and develop related commercial applications as soon as possible.

What is completely different between this meeting and the findings of two scientists in 1989 is that the test results they published can be replicated by other scientists. It's just difficult to measure. But it is proven feasible.

As for the raw material for cold fusion, it is heavy water!

Heavy water is a compound composed of deuterium and oxygen. It is similar to ordinary water in appearance, except that its density is slightly higher at 11079 grams cubic centimeters, its freezing point is slightly higher at 382, ​​and its boiling point is 10142. The rate of participating in chemical reactions is slower than that of ordinary water. A molecule of heavy water is composed of two heavy hydrogen atoms and one oxygen atom. Its molecular formula is 2 and its relative molecular mass is 20.

Heavy water looks very similar to ordinary water. It is an odorless and tasteless liquid. Their chemical properties are also the same, but some physical properties are different. The density of ordinary water is 1 g cm3, while the density of heavy water is 1056 g cm3. The boiling point of ordinary water is 100, and the boiling point of heavy water is 10142. The freezing point of ordinary water is 0, and the freezing point of heavy water is 38. In addition, ordinary water can nourish life and cultivate all things, while heavy water cannot germinate seeds. If people and animals drink heavy water, it will also cause death.

Of course, ice made from heavy water will sink in water. The manufacturing cost of heavy water is US$1,000 per kilogram, but it can produce the energy of approximately 2.9 million kilograms of oil. It does not release any greenhouse gases and is not harmful to nature. And extraction is extremely simple. It can be extracted from all countries. It's just that heavy water can only be used in nuclear reactors. And only in cold fusion can such a large amount of energy be exploded.

As for Sumitomo Ning’s research team, they are currently limited by the controllability of the energy erupted from the neutron impact of cold nuclear fusion. In other words, Japan, the United States and other countries can actually achieve cold nuclear fusion, but they cannot make its energy burst completely controllable. This is not true cold fusion.

The key to cold fusion is not only clean, efficient, and cheap, but most importantly, controllable. It's not completely controllable yet. Once it explodes, it explodes instantly instead of allowing its slow rated power to dissipate energy.

Another point is miniaturization.

The biggest difference between thermonuclear fusion and cold fusion is size. The key to thermonuclear fusion lies in a tokamak, a ring-shaped vessel that uses magnetic confinement to achieve controlled nuclear fusion. It takes its name from toroids, vacuum chambers, magnets, and coils. It was originally invented in the 1950s by Azimovich and others at the Kurchatov Institute in Moscow, the Soviet Union. At the center of the tokamak is a ring-shaped vacuum chamber with coils wrapped around it. When electricity is energized, a huge spiral magnetic field is generated inside the tokamak, which heats the plasma in it to a very high temperature to achieve nuclear fusion.

As for cold fusion, it can be reduced to the size of a glass bottle. This is what cold fusion is about!

These two aspects are actually problems for all scientists around the world.

"I have read your test data. Your energy reaction cannot reach the critical point at normal temperature. You only need to expand the energy acceleration effect." Nuwa only spent 13 seconds to read all the Japanese research reports. This left Japan stunned.

"But this requires a large accelerator, which would not be cold fusion." Some scientists retorted.

"It's very simple. You try to use laser wake field acceleration technology to increase the energy of charged particles to the order of magnitude. Based on your data, we only need to maximize this energy to achieve cold nuclear fusion at room temperature! And! This result, according to my internal simulation, is 90% feasible!" Nuwa said.

Laser tailfield acceleration technology! The eyes of many Japanese researchers lit up. This seems to work. You can try it!

"As for miniaturization, I think we can definitely refer to the cold fusion prototype Ark-type reactor in the American Hollywood blockbuster Iron Man." Nuwa said.

Ark-style reactor? Many scientific researchers in Japan are confused. That's a Hollywood blockbuster. Is this feasible?

The Ark reactor is a miniature stepless controllable cold fusion nuclear reactor. The peak power of this technology is: 300 million JW seconds, and it can be continuously output for about 15 minutes. Rated power: 5 million JW seconds, and it can be output continuously for about 200 million years. The protagonists in movies and comics use cold fusion reactors to provide energy for mechas, and provide flight power and photon weapons through the release of photons in the fusion reaction.

"Why is it not feasible? Although it is just a Hollywood blockbuster, it is just a whim, but there is no shortage of things that can be borrowed. Moreover, real cold nuclear fusion can completely achieve such miniaturization." Nuwa looked serious.

Is this really possible? Japanese researchers were stunned.

"In this way, you use laser tailfield acceleration technology to achieve quantization of energy, and I will analyze the feasibility of the Ark-type reactor!" Nuwa ordered.

Many scientific researchers nodded instinctively. With Nuwa's strong personal ability, the research laboratory began to be led by Nuwa.

To be continued.