Super God-Level Top Student-Chapter 1081 - 422: The Validity of the Black Hole Phenomenon?_2

Chapter 1081: Chapter 422: The Validity of the Black Hole Phenomenon?_2

The younger sister was overjoyed, her arms and legs flailing about. Her legs, as if they were decoupled, kicked randomly. When excited, she’d unconsciously clap her hands.

This left the two newly promoted grandmothers somewhat at a loss; how could the girl be more mischievous than the boy?

However, Qiao Ze and Su Mucheng clearly didn’t mind, especially Qiao Ze.

Ever since having kids, Qiao Ze hadn’t worked overtime, and would even leave half an hour early, taking Su Mucheng with him promptly at five, heading home by car, enjoying dinner, and quietly watching the two little ones afterward.

It didn’t matter if the little ones were sleeping. Before he went to bed, the two little ancestors were bound to wake up once, maybe even several times. Either from wetting the bed or being hungry, they’d start crying, and after being attended to, they’d begin their daily performance.

Though life had changed, Qiao Ze was inherently a quiet person, so no one found it surprising. He simply wasn’t as preoccupied with scientific research as before. But for this small family, it truly had no impact.

...

"Qiao, look, the little sister is being mischievous again, kicking her brother. Do you think she won’t bully her brother all the time in the future?"

Su Mucheng sat beside Qiao Ze, looking at the siblings lying on the bed, and spoke with concern.

The sister had just wet herself and started crying loudly, waking up her brother too, which turned into a lively duet.

The adults finally managed to calm the two children and put them into the enlarged cradle built by Dou Dou. The children first gazed affectionately at each other, then the sister suddenly kicked her brother, yet the brother, unfazed, sucked on his fingers, still tilting his head and gazing dumbly at his sister.

Until the sister raised her hand again, seemingly wanting to grab her brother’s arm...

It seemed now that the sister was indeed much more lively and active than her brother.

"It’s fine." Qiao Ze replied casually, his eyes not moving until the sister got bored of interacting with her brother, turned her head, and smiled at him.

Su Mucheng turned her head and saw the corners of Qiao Ze’s mouth unconsciously curled into a smile, and she instinctively smiled too.

She really didn’t expect Qiao Ze to be so interested in the children.

"Su, come grab a bowl of watermelon." Ms. Su called out.

Su Mucheng jumped up and brought over a bowl of cut watermelon, feeding a piece to Qiao Ze with a fork.

"Hmm, one piece is enough." Swallowing the watermelon, Qiao Ze said.

"Qiao, these two kids are becoming like black holes! They’ve completely captured your attention!" Su Mucheng muttered.

"Black holes?" Qiao Ze glanced up at Su Mucheng and, after thinking, said:

...

United States, MIT.

Building 37 on the main campus, Kavli Institute for Astrophysics and Space Research, Office 207.

Early in the morning, Professor Critiel Matich was already in a video call debating with someone.

"...Nonsense, complete nonsense! I’ve read his paper, just like Edward’s, it’s all untestable. But just using some mathematical tricks doesn’t make it explainable. Especially that last part..."

Yes, Critiel Matich had never been optimistic about Q theory from the beginning. Just as he was disdainful of M theory.

Membranes, low-energy limits, eleven-dimensional supergravity, and a bunch of mysterious things, they indeed looked beautiful and coherent, but as Critiel Matich put it, it’s just the imagination of mathematicians.

After all, the fundamental processes described in the entire M theory occur at the Planck scale, and the corresponding energy scale is the Planck energy. Never mind that current science can’t possibly observe the conditions at the Planck scale, even the most powerful accelerators can’t meet the requirements of Planck energy.

At least, in this professor’s opinion, building a physical theory framework that cannot be experimentally verified, using just mathematical aesthetics, is pure nonsense.

He had even said these words in front of Edward Witten, resulting in an unhappy outcome.

In fact, the truth is, Critiel Matich used to hold Qiao Ze in high regard. After all, Qiao Ze had previously provided effective experimental methods for explaining the mass gap problem and proposing the Quantum Containment Theory.

But this time, for Q theory, to be honest, he found it meaningless. Completely a waste of time.

This former Nobel Laureate in astrophysics even considered that Qiao Ze had been led astray by Edward Witten.

Yet recently, there were many people discussing Q theory with him. Naturally, he wasn’t in a good mood about it either.

But what can be done?

"What do you mean I’m too one-sided? I admit, as a mathematical framework, Q theory is probably successful. If the paper only had the first half... okay, I admit, if it only had the first half I wouldn’t pay attention at all.

However, Professor Rod, you have to admit, just like M theory, in the short term, Q theory cannot be verified. Of course, I also have to admit, Q theory is indeed more advanced than M theory, at least it proposes clear physical implications and predicts some physical theories, but that’s clearly not enough."

...What do you mean I didn’t carefully read the paper? In fact, I read it very carefully. If extracting the time dimension and then using other parameters to reconstruct the universe is considered innovative, I can do such innovation too. Of course..."

"Bang..."

"Professor Matich... huh? Are you busy?"

The young man who suddenly barged into the office interrupted Critiel Matich’s long-winded discourse.

The Nobel laureate raised his head angrily and glanced.

The one who came in unannounced was his student, Ham Taylor, an international student from Germany. He graduated with a bachelor’s and master’s degree from the University of Bonn. At least in his view, he’s a very promising young man.

Two years ago, several of his friends from the University of Bonn wrote recommendation letters for this lad, and it turns out those old friends didn’t mislead him. At least in physics, he’s truly gifted and also quite sensitive to mathematics. He can now be considered his prized disciple.

So despite the impolite entry, Critiel Matich merely glared at him, gestured for patience, and then refocused on the ongoing video.

"Alright, Phyllos, let’s stop the conversation here for today, I have some matters to attend to."

Having said that, Critiel Matich ended the video call and turned his attention to his student.

"What’s up, Ham?"

"Professor Matich, I’ve done it, really, it’s amazing, simply unbelievable..."

"Alright, Ham, calm down, what have you accomplished?"

"The effectiveness of the black hole phenomenon! Really, Professor Matich, if the data you gave me is correct, then I’ve proven that during the evaporation process of a black hole, the information released through Hawking radiation is not lost!"

Critiel Matich tilted his head, staring at Ham Taylor, momentarily dazed.

Although he highly regarded this student, he was even more optimistic about his future.

Moreover, it seemed this wasn’t an assignment he had given, in fact, the tasks he had recently assigned Ham Taylor focused mainly on studying the emission mechanisms of gamma rays, including the origins and mechanisms of short- and long-duration gamma ray bursts.

In general, gamma rays, as highly energetic electromagnetic radiation, primarily come from the most extreme and intense cosmic events. But in reality, Critiel Matich hoped that through studying gamma ray emission mechanisms, they could find dark matter and dark energy.

Current theoretical physics suggest that dark matter and dark energy comprise about 27% and 68% of the universe’s total mass-energy, making them crucial to the overall evolution and structure formation of the universe, yet their nature remains unknown.

Theoretically, gamma rays as high-energy electromagnetic radiation can penetrate most matter in the universe, providing a unique tool for studying dark matter and dark energy.

If this problem can truly be solved, without a doubt, Critiel Matich could obtain another Nobel Prize in Physics, along with a Qiaoze Physics Prize.

Of course, when discussing gamma ray research, one naturally cannot avoid black holes. After all, black holes are one of the strongest sources of gamma rays in the universe, including accretion disks and relativistic jets.

But this research result from his own student...

The effectiveness of the black hole phenomenon? What on earth?

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