Watching ASML's live broadcast, in addition to some mentality of watching the show, most people are concerned about how far the performance of the chip can reach in the future.

Graphics cards, CPUs, games, and more.

But this kind of picture still causes a heavier feeling in China.

What Ambrera is facing, to some extent, is not a microcosm?

Under the existing order established by the Great Beauty, all developed countries are the beneficiary groups.

In this case, even if Da Mei often harvests the whole world regularly according to her own domestic contradictions, inflation and various economic problems, and cuts their flesh to fill herself, all parties still have a certain degree of patience for Da Mei and accept the domination of Da Mei!

Who wants to be the enemy of the big beauty?

No.

But sometimes it's not that you don't want to, you have to have the same mind on the other side.

Backwardness does not necessarily mean that you will be beaten, but there will be money if you are backward.

"Made, what's the sudden feeling of pressure? Isn't it explicitly aimed at Ambrera? ”

"Hey, it seems that we may face ...... in the future."

"It's inexplicably angry."

"Only we will be angry, because other people don't care anymore, and there are even those who are proud to be garrisoned."

"Isn't that how we used to be? In fact, the world has never been peaceful, but we live in a peaceful country and era. ”

"Now, they want to come back, and Ambrera is probably facing the same thing that we need to face, we are not living in a peaceful era......"

"Of the 190 countries in the UN General Assembly, only 3 have not been intervened by the big and beautiful military, which is still because these three countries are too small to be useful."

"Then why are we making them angry?"

"Because you're not white, they can't even control their own dogs, how can they care about your life or death, of course, some people think that the speed of their early licking may be different......"

"Isn't it popular to run first and look down on the next run over there?"

“……”

It can be said that ASML's sudden arrival to put pressure on Ambrera to the limit has brought a huge pressure on the country.

When even the DUV lithography machine was still tackling key problems, it suddenly came up with this new track, bringing together all the world's top technologies EUV lithography machine, which is claimed to be able to reach the limit of silicon-based chips, which really makes people feel a huge pressure.

At the same time, many people are also looking at Ambrera.

I don't know how this miracle-making company should face it......

At the beginning, Ambrera took out the DUV lithography machine for the first time, and now there are indeed many people who see if they can also come up with EUV, but the team lineup of ASML has been laid out before.

Ambrera does have a 'magic' advantage, but it has always been based on basic rules, so it feels like it can't be overcome!

Maybe you can overcome some of the difficulties inside, but I'm afraid it really won't work overall!

There are also many people on the Internet who are concerned about this matter.

However, for them, they obviously don't have so many ideas, they are more concerned about what impact they have, and then whether Ambrera will not be able to keep up after being sanctioned!

"What will happen to the chip of the red bracelet in the future?"

"What are the sanctions, who is in the way of them building a city on the sea?"

"It's this lame excuse again, can you change it, I'm tired of hearing it."

"Now the latest chip has not come out, but it is estimated that the chip factory will be officially announced soon, and the wafer factory does not know when it will be able to start."

"I have friends in the industry who say EDA is very fast after getting Ambrera's upgrade."

"Isn't it, the EDA software is upgraded by someone else, and the sanctions are imposed in turn?"

"Hey, maybe the phone won't be able to be used in the future, the ten-fold gap is too big."

"Console games on your phone are just around the corner."

"I also want to see what happens when it collides with 'Red Queen +' after the upgrade."

"A certain song should also have artificial intelligence, right? This kind of blessing can't be compared to the red queen, which can't be said. ”

"I hope Ambrera can license the holographic technology......"

“……”

……

When Asmir attacked strongly, there was a lot of talk outside.

Wang Yi was bored adjusting the materials in front of him.

At the beginning of the superconducting materials, Wang Yi subconsciously chose the silver factor, and finally chose the silver-copper alloy to be strong.

In the end, relying on brute force, he did pull out a small piece of room temperature superconductivity, but Wang Yi was tired enough.

If this kind of superconducting material is to be used in the future, then it will be completely insufficient for him to do nothing and masturbate twenty-four hours a day.

So it was just thrown aside.

And this time, Wang Yi carefully interpreted the hydrogen sulfide experiment.

What is Superconductivity?

No resistance and diamagnetism are indispensable.

Of course, this resistance-free itself is still relative, but it has no effect, and it can be regarded as no resistance after the resistance is less than 10^-25 ohms.

And the first superconductivity discovered was mercury.

Subsequently, many materials that can achieve superconducting properties under the cooling of liquid helium were slowly discovered.

Take metals as an example, metals are metal atoms that make up a metal lattice structure, in which free electrons can move freely and shuttle, so they can conduct electricity.

However, the metal atoms themselves are also in a state of vibration in the crystal lattice, and will 'collide' with the moving electrons, thus absorbing part of the energy and converting it into its own internal energy, which is reflected in the increase in temperature after the electricity is applied.

As the temperature increases, the metal atoms become faster and faster, and the likelihood of colliding electrons increases, so the resistance usually increases.

That's why the mercury resistance was tested at low temperatures in the first place, to see how small the resistance could be.

However, the birth of superconductivity is not purely due to the fact that the temperature is too low and the vibration of atoms is smaller, which can only be regarded as one of the reasons.

In the case of electrons, no matter how low the motion of metal atoms is, there is a probability of colliding.

Superconducting materials themselves are not absolute zero, and they do not prevent the vibration of metal atoms.

Therefore, the reason for the birth of superconductivity needs to continue to be distinguished from the two elementary particle categories of bosons and fermions.

Fermions are semi-odd particles with spin of one-half or three-half, which follow Pauli's principle of incompatibility, that is, a quantum state is only allowed to accommodate one particle, and cannot be superimposed on top of each other, and we can touch matter, which is in a sense made up of fermions.

Bosons are particles with spins as integers, which can not follow Pauli's principle of incompatibility, such as photons, taking the actual point as an example, it can be seen as a magnifying glass focusing on sunlight can be compressed into a small dot, and all photons can theoretically be superimposed in a quantum state.

As an electron of a fermion, the thicker the current passes through the wire, the better.

What we usually call the singularity at the center of the black hole, and the singularity at the time of the Big Bang, is that the degenerate pressure between fermions is broken by a greater force and collapses into a quantum state, forming a similar effect of a magnifying glass converging sunlight, infinitely superimposed.

After understanding this, it is necessary to extend another substance, which is called superfluid, which is in a specific environment, two kinds of fermions are coupled with each other to form Cooper pairs, and the original semi-odd spin coupling is turned into an integer, so as to obtain properties similar to bosons.

For example, helium nuclei.

This allows the superfluid to make friction disappear, in the form of the ability to flow quickly through a very thin tube without sticking, or to turn a little hard in a ring that almost forever revolves around the ring.

Superconductivity at low temperatures is also based on this reason, because the energy of electrons as fermions is lower than that of the Fermi-Dirac distribution, resulting in the coupling of two pairs to form Cooper pairs, and then the free 'flow' in the conductor is not affected.

So how to combine electrons with city Cooper pairs is the key.

The reason why hydrogen sulfide was chosen in the paper is because 'hydrogen' is the lightest nucleus, and when electrons move in a conductor, it can attract nearby nuclei to move, and when the nuclei move densely, they will attract the next electron, making it easier to pair and match.

This allows the electrons to bond into Cooper with less temperatures than the temperatures that are close to absolute zero.

Judging by the lab results, there is nothing wrong with the direction.

It is necessary to find ways to reflect the metallicity of hydrogen, yes, hydrogen can form 'metallic hydrogen' under extreme conditions, but human technology cannot do it, so diamond pressurization will be used to reduce the temperature and then choose hydrogen sulfide to achieve some of the characteristics.

Wang Yi also walked into a misunderstanding before, always thinking about using the characteristics of metal and silver to form superconducting alloys.

However, using silver's intervention in magic to bring out the metallicity of hydrogen seems to be much simpler than silver-copper alloys!

Silver hydride, this is a strange thing that Wang Yixin has come up with.

Although it is still necessary for him to personally mobilize the magic of the mage tower to make it.

But the difficulty is much more convenient than the previous silver-copper alloy, and the efficiency is much higher.

After the completion of Penglai's mage tower, although the production capacity is not large, it should be self-sufficient.

And now although the big guy can't do it, it's not a big problem to just make some chips and help Lin Shiqin upgrade again.

Anyway, the EUV lithography machine knocked out by himself is solid, and you can directly attack this material if you are alive......

————

The second more ~

This chapter has been revised

(End of chapter)