"Open the Celestial Palace?"

On the ground.

Facing the question posed by Lin Ziming,

Academician Pan was initially taken aback, then he fell into deep thought.

Lin Ziming remained silent, afraid of interrupting his train of thought.

It's not that he rarely had the chance to benefit from Academician Pan's input, squeezing him like a production team's donkey.

But because although there are many local experts, few can rival Academician Pan.

As the saying goes, every trade has its master.

In the realm of quantum encrypted communication—or now one could say space teleportation—Academician Pan is undeniably the number one.

The teleportation array in the Damo Realm is like a secondary version, giving Academician Pan a lot of hard-to-learn scientific experience.

Just like Bruce Lee, who combined various martial arts to eventually create Jeet Kune Do.

Though a single person, he can match an entire army.

Therefore, if there is anyone domestically who can crack the entry restrictions of the Celestial Palace, it would undoubtedly be Academician Pan.

After a while,

Academician Pan Jianwei suddenly had an epiphany.

He brightened up, clicking his tongue gently.

Most people, when pondering a problem, would follow a click with a sigh,

then helplessly shake their heads, indicating powerlessness.

But Academician Pan is different; his click signifies he has an idea.

Unfortunately, his partner Lu Chaoyang wasn't present, and the people there didn't understand this.

Lin Ziming, standing aside, prepared to console him, but then he heard Academician Pan say,

"Colonel Lin, I do have an idea.

Theoretically, it should be feasible."

Lin Ziming was stunned for a few seconds, then his face lit up with joy:

"What? You have a solution?"

He then realized he knew nothing about the relevant knowledge, so he stepped aside to let Li Bai'an take the position:

"Why don't you discuss it with Elder Li?"

Academician Pan Jianwei took a cup of water handed by his assistant to moisten his throat and said,

"Elder Li, my idea is... to use the Xicc++ baryon to break the barrier. What do you think?"

What a concept.

Right off the bat, it's something Lin Ziming couldn't comprehend.

But this term didn't stump Li Bai'an.

As an academic-grade expert, even though there's a gap in his core areas compared with Academician Pan Jianwei, his thinking remains very sharp.

So when Academician Pan Jianwei mentioned specific substances, he quickly thought through some possibilities:

"Xiaopan, are you saying… from the properties of heavy quarks?"

Academician Pan nodded and affirmed:

"Exactly, with condensed particles and Spiritual Energy existing in the Celestial Palace, I think we can attempt from this angle.

After all, with current technology, it's still too challenging to tear open space."

In many novels, the protagonist can casually tear open a piece of space.

Like proving the Dao with a ten-ton road roller or something.

But in reality, the possibility is extremely low.

Theoretically speaking.

To dispel the energy contributed by all known quantum fields in every cubic meter of space, at least 1.6E111 joules of energy are required.

That's about the equivalent of 3.8E101 tons of TNT. (Assuming no calculation errors)

The observable universe contains approximately 1E80 atoms, and if each atom turned into a megaton-level thermonuclear weapon, it still couldn't break a cubic meter of space.

Existences that can nonchalantly break open an insignificant cubic meter of space.

Could probably wipe out all baryonic matter in the observable universe with a mere hair strand twitch.

If such immense energy were stored in a human-sized body, it would essentially be a singularity piled together,

i.e., a humanoid walking black hole.

Thus, at Earth's current technological level, achieving such an operation is out of the question,

and even with an extra few centuries, it would still be difficult. Perhaps in a millennium, there might be a tiny chance.

Thus, to breach the cyclonic space, we must approach it from other angles.

The materials currently available to the rabbits are indeed limited, categorized into local existing particles and material within the Celestial Palace:

Externally, there are particles less than 163 pm in diameter.

Including but not limited to Ωccc++ baryons, Σ mesons, and beryllium ions, etc...

Within the Celestial Palace, there are Y particles—namely condensed particles, microorganisms that produce Y particles, and an unknown concentration of Spiritual Energy.

It's akin to a cooking challenge.

Given a pile of limited ingredients, you must make a perfect meal.

And Academician Pan Jianwei's answer lies in the Xicc++ baryon he mentioned.

The discoverer of the Xicc++ baryon is the renowned Academician Gao Yuan Ning, also known as God Gao.

Originally a notable leader from Shuimu, he later jumped ship to the adjacent institution.

The Xicc++ baryon, also known as the double charmed baryon Ξcc++, was discovered in 2017 by the LHCb research group of Master Hua and Shuimu.

Previously discovered baryons contained at most one heavy quark, but this was the first experimental discovery of a baryon containing two heavy quarks, marking a textbook-changing discovery.

This discovery was included in Huaxia's top ten scientific research projects that year, ranking fourth globally among quantum research achievements in 2017.

Interestingly enough,

shortly after the discovery of the Xicc++ baryon, the suspected Dyson sphere around Tabby's Star (KIC 8462852) exhibited new changes.

As a result, many jokingly said that God Gao's discovery disturbed the cosmic order (laugh).

Of course, that last bit is just light-hearted talk, but in a certain sense, the Xicc++ baryon indeed represents a discovery that changes traditional conceptions.

If SELEX's results had puzzled theoretical physics for a long time, LHCb's findings directly drove theoretical physicists to despair.

This involves a concept:

Baryonic acoustic oscillations, sometimes called baryonic sound wave oscillations.

Before discussing baryonic acoustic oscillations, let's introduce a knowledge that may challenge many people's understanding:

Space actually has sound.

First, from classical physical terms.

Space isn't entirely a vacuum, although particle density is indeed very low.

Plasma exists in space, with density outside Earth's magnetosphere being 3-10 particles per cubic centimeter.

Since plasma is compressible, it naturally generates sound waves.

When the frequency is high, due to the significant mass of ions, they can't keep up with the oscillation frequency.

At this point, it's primarily electrons oscillating, with ions as the background.

They form what's known as electron sound waves, called "Langmuir waves."

Another phenomenon mentioned previously is baryonic acoustic oscillations.

Simply put.

Baryonic acoustic oscillations are the recorded ripples of varying distribution densities of baryons like protons and neutrons, which propagate in the void.

The advanced content of these ripples is a term surely well-known to everyone:

Dark matter.

Or you could put it this way.

The theoretical foundation for the existence of dark matter is built upon baryonic acoustic oscillations.

However.

Dark matter hasn't been discovered yet; the closest candidate is the axion.

If experiments could confirm the detection of axions, it would not only capture a dark matter particle but also solve the longstanding strong CP problem plaguing physicists.

Thus elevating our theoretical understanding of symmetry and antimatter to a new level.

Consequently, countless scientists are delving into this area, some purely for academic exploration, and others for fame and fortune.

There have even been incidents where team members "defected" with the data.

The most egregious incident occurred at the Paul Scherrer Institute in Switzerland.

At that time, a team member not only ran off with data but also set fire to other original copies, burning them to ashes.

As a side note, this person was from a neighboring island nation.

To sum up.

The two heavy quarks in the Xicc++ baryon, under certain conditions, might trigger a super-energy-level reaction in a very small region.

There are many similar concepts in everyday life.

For instance, many might not know that when a soap bubble bursts, the instantaneous energy can reach a temperature of twenty thousand degrees.

Xicc++ baryon is akin to this circumstance.

The instantaneous magnitude it can achieve is quite small, so it hardly causes any noticeable impact.

Similarly for the Xicc++ baryon.

Theoretically, if such a "special substance" mentioned above were discovered, the oscillation magnitude could potentially be achieved.

However, since such a 'special substance' has yet to be experimentally discovered, this purely remains theoretical.

Nonetheless, Academician Pan Jianwei proposed this idea because a certain substance exists in the Celestial Palace.

This substance is that 'special material' mentioned above.

And that substance is…

Spiritual Energy!

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