Hand rubbing nuclear fusion live in the wilderness

Chapter 546 Super Graviton Reappearance
The first batch of data captured and recorded by the Zero Infrared Space Telescope and other observation satellites through various observation means has been sent back.

Xiao Qi and Xiao Ling are working overtime to deal with these things, and what they pay for this is the two large supercomputers + two sets of computer arrays running at full power in Base Zero.

These things run at full power, and the power consumption can be exaggerated to scare a person to death.

A large, controllable fusion reactor isn't even enough to power it, so Won had to temporarily bridge the energy from the fusion reactor used for large particle collisions.

And this is just the analysis of the collapse data before the explosion of the Betelgeuse supernova, and the data of the subsequent supernova explosion will need to wait a little time before being transmitted back.

It can be seen how much information was brought by Betelgeuse when it exploded as a supernova.

It didn't take long before the first batch of collapse data appeared in front of Han Yuan.

The first batch of data is from the time period when Betelgeuse was observed by Xiao Qi to collapse to the critical point before the supernova explosion.

During this period of time, because the violent carbon flash broke the balance of the Betelgeuse star, causing the interior of the star to begin to collapse rapidly, not only the attraction of the outer layer of matter, but also the fluctuations related to gravity.

The most obvious is the transmission of light.

From the analysis of the data during this time period, it can be clearly seen that as the collapsed area becomes larger and larger, the light emitted around Betelgeuse is also distorted like a steel bar bent by someone.

This is a manifestation of the gravitational force of the matter inside the star that has become so strong that it can collapse space-time and distort light.

It may be that the previous supernova explosions were too far away, or it may be that when people observed supernova explosions in the past, they had already exploded, and the phenomenon of collapse has never been observed.

After all, since the invention of the telescope, the closest supernova explosion that humans have observed is the 1987A supernova.

It was a star about 160 light-years away from the earth, and a supernova explosion broke out in the Large Magellanic Cloud, and enough data was collected for human beings to study supernova explosions.

But in comparison, the distance of Betelgeuse from the earth is not even a fraction of this, and the various data and phenomena that can be collected from Betelgeuse supernova explosions are also more.

In short, in this piece of data, South Korea has observed a phenomenon that has never been discovered before in supernova explosions or even in the physics world.

That is the phenomenon that under the action of the supernova explosion, the neutrinos in the outer layer of the star reversely transfer energy to the core core and evolve into another form of neutrinos.

A completely new phenomenon, the conversion between neutrinos, at least up to now, he has not seen this situation in the basic knowledge of physics in his mind.

Han Yuan doesn't know much about neutrinos, even if he has neutrino communication technology in his mind, he doesn't know much.

But the most obvious property of the neutrino was impossible for him to forget.

The particles produced by various weak interactions between particles have no charge, do not participate in electromagnetic interaction and strong interaction, and only participate in weak interaction and gravitational interaction.

Under normal circumstances, as long as a neutrino is born, it is destined to be in this form for a lifetime, even if it is in a supernova explosion, it is impossible to let it evolve into another form of neutrino.

It is possible to evolve into a new type of matter by participating in weak interactions and gravitational interactions with other particles.

But this transformation from A-type neutrinos to B-type neutrinos is theoretically impossible.

Because it has no magnetic moment.

In the supernova explosion activity of Betelgeuse, in the first stage of the collapse phenomenon, this phenomenon has been observed by Korean Won.

The neutrinos that should have escaped from the core of Betelgeuse lost part of the energy they carried when they escaped from the core, and evolved into another form of neutrinos before escaping.

It's like being charged tolls when you get off the highway, it's very strange and interesting.

As for where the energy it lost went, Won didn't know, it couldn't be found in this observation data anyway.

This peculiar phenomenon aroused the curiosity of Han Yuan.

Normally, once a neutrino is born, it will quickly escape from the original matter. It has always been the only one that takes away the energy of the particle, and no particle can reversely deprive it of its energy.

The greatest possibility of this kind of thing is caused by the gravitational changes in the core of Betelgeuse during the collapse process.

After all, neutrinos only participate in weak interactions and gravitational interactions.

In the rapidly collapsing betelgeuse core, high temperature and high pressure are the norm.

In this case, all particles interact strongly due to the strong gravitational force and temperature of the inner core, and in this case, due to the large mass of the bosons, weak decays are opposed to strong or electromagnetic decays due to weak interactions The possibility of neutrino mutation caused by the action is relatively low.

After all, it takes about 15 minutes for a free neutron to decay through weak interactions compared to the speed at which stronger interactions occur.

Leaving aside the weak interaction, the only remaining possibility is gravity.

And there is no physicist who is not interested in things related to gravity.

As the most common and mysterious force in nature, even a primary school student has heard of the name of gravity.

But since the concept of gravity was put forward, except for the common cosmic imagination that space is curved under the action of gravitational field and gravity affects these common universe imaginations, people have not observed any subtle activities involving gravity.

If the strange phenomenon of neutrino mass loss observed this time is really caused by gravity, it is probably the first time in human history that human beings have seen that gravity is acting on and affecting other particles at the microscopic level , the research value is self-evident.

With a curious attitude, before the data of the second phase was analyzed, Han Yuan observed the analysis data of the first phase over and over again.

Finally, in a collapsed energy spectrum image, he found a new discovery.

It was an inconspicuous peak of energy spectrum data, but it was very consistent with the peak of energy spectrum data he had done for super gravitons before.

Fit at least part of the middle.

If it is placed in all the energy spectra in the first stage, finding this segment of energy spectrum data is tantamount to finding a needle in a haystack.

Because there are too many spectrogram data in the first stage, so much that we need to use 'million' as a unit to describe it.

On each energy spectrum image, at least there are several peaks of energy spectrum data, and there are dozens or even hundreds of energy spectrum data, which is normal.

If you want to find this small peak of energy spectrum data among the tens of thousands of energy spectrum images, you must either have Lady Luck sleeping on your bed, or you can only wait for Xiaolingxiaoqi's follow-up analysis.

But that takes a long time.

This discovery made Han Yuan very surprised and pleasantly surprised.

The energy loss of neutrinos seems to be related to the supergravitons used in faster-than-light technology.

To be precise, it is because of the appearance of super-gravitons in the process of collapse, which causes neutrinos to lose energy and transform into new types of neutrinos.

In this direction, Han Yuan dragged out all the experimental data on supergravitons before, and compared them again.

In the first half of the year, because of the emergence of super gravitons, he urgently wanted to develop superlight flight technology from them.

But the latter was only the first step. After observing the supergraviton through the large-scale strong particle collider, it encountered difficulties and stuck all the research.

The reason is that he cannot accurately and stably produce particles such as supergravitons through the large-scale strong particle collider.

Even if the hypergravitons were observed in the collision experiment of the previous second, there is a high probability that no supergravitons will be observed in the subsequent experiment with all conditions intact.

For collisions of energy levels under the same conditions, some supergravitons may appear, while others may not. This situation makes Won very confused.

If the supergravitons cannot be obtained stably, all subsequent experiments cannot be carried out.

After all, things that cannot be obtained stably have no research value, let alone practical value.

Han Yuan never thought that during the collapse process of Betelgeuse's supernova, he would observe the appearance of particles such as super gravitons, let alone the emergence of such particles as neutrinos. got in touch.

This is quite an incredible phenomenon.

However, after the first discovery, it was accompanied by a huge amount of data analysis problems.

Not all collapse energy spectra can find the same energy spectrum data peaks as supergraviton.

The probability of it appearing may be less than one in a thousand, judging from the energy spectrum he has read so far.

The number of energy spectrum images in the first stage is as high as 10,000+. If you only rely on his own strength to find them, you have to find them.

But now Xiaoling and Xiaoqi can't afford computing power and performance at all. These two artificial intelligences are currently doing their best to analyze the supernova explosion data captured.

And it is expected that the time will not be short, at least it will last until the remaining supernova explosion of Betelgeuse loses a lot of brightness, and the time is about [-] days or so.

This is very worrying.

Especially for Won, the secret of supergraviton interaction is likely to be hidden in these collapse energy spectrum images, but to analyze these images, it will take at least half a month, which makes people scratch their heads up.

As for his analysis alone, let’s forget it. In half a month, to complete the data analysis of 10,000+ collapse energy spectrum images, it is better to kill him directly.

Even if he works 24 hours a day, he can't finish it.

After sighing somewhat depressed, Han Yuan wiped away an energy spectrum image on the virtual screen in front of him, leaving a blank space.

As of now, two days have passed since the supernova erupted.

In the past two days, the live broadcast room was very lively, but he was not in the mood to talk to the audience.

During these two days, he analyzed a total of 320 seven collapse energy spectrum images of Betelgeuse.

But except for the energy spectrum data peak of the supergraviton discovered in the first sheet, no other peaks were found in the remaining 320 sheets.

This made Won abandon the idea of ​​continuing to analyze the spectrum image because it was pointless.

The speed of manual processing of these spectral images is too slow, which is the field of computers or artificial intelligence.

320 seven energy spectrum images are too weak when faced with a total of 10,000+, and the number is not even a fraction of the total.

Let's wait until Xiao Qi and Xiao Ling finish their work.

However, Won has a premonition that the breakthrough of super-graviton and faster-than-light flight technology may be in this Betelgeuse supernova explosion.

Although the supernova explosion will not exceed the speed of light, even the formed gamma-ray burst can only travel at the speed of light, but the gravity and space it entangles are energy.

And the secret is hidden in it.

But speaking of it, if the emergence of super-light flight technology needs to be at the cost of a massive star, I am afraid that not many civilizations in the universe can master it.

Although the universe is very large and there are many massive stars, not every civilization is near them.

Like the earth, there is a large-mass old star at a distance of more than 600 light-years, and it must be just right when the civilization can observe it. The probability of a supernova explosion is no more than your two yuan Money to buy lottery tickets but won a hundred million or so.

In the simulation space, in the studio, after temporarily giving up the data analysis of the collapse energy spectrum image, Han Yuan walked out of the studio and looked up at the sky.

Even if it is daytime now, you can still see another sun in the sky in the east.

That's Betelgeuse.

But in about a month, the sun in the sky will disappear, and at the same time, Orion's shining gem at night will gradually disappear, replaced by a beautiful nebula, adding a new picture to the sky. Spectacular.

At that time, in some plateau areas, when the weather is clear at night, people can see a small piece of bright and beautiful scenery in the original area of ​​​​Orion with the naked eye.

This is probably the most magnificent fireworks that people in the 21st century have ever seen.

As for now, to be honest, although the early eruption of Betelgeuse did not bring devastating gamma rays to the earth, it still brought a lot of trouble to the creatures on the earth.

Because of the angle, in the northern hemisphere, Betelgeuse hangs there 24 hours after the eruption, and it can be seen 24 hours a day, regardless of day or night.

And because the brightness has suddenly increased by several star magnitudes, many viewers complained in the live broadcast room that his cats, dogs and other pets may no longer distinguish between day and night at all, and the whole thing is too excited.

In addition, some people reported that it is already late autumn, but when they go out, they get tanned several degrees, as if they did not protect themselves in summer.

This is also the impact of Betelgeuse's supernova explosion ahead of schedule.

Although the gamma rays did not come, the more violent supernovae formed in advance erupted and brought more and stronger radiation such as X-rays and ultraviolet rays to the earth.

Despite the protection of the atmosphere, it can still cause no small difficulty to creatures.

But fortunately, because of the distance, the early eruption of Betelgeuse will not significantly increase the temperature of the earth, otherwise it would be a real disaster.

(End of this chapter)