A 13-year-old physics prodigy, Max Laughlin, debunked viral claims that CERN opened a portal to another dimension during his appearance on The Joe Rogan Experience, explaining that the lab’s work is rooted in real science, not speculation.

In a world where science often collides with speculation, a recent episode of the Joe Rogan Experience has stirred the pot, bringing forth a remarkable conversation that has left many questioning the limits of our understanding of the universe.

The guest, a thirteen-year-old prodigy named Max Laughlin, has captivated audiences with his insights into particle physics and the enigmatic workings of CERN, the European Organization for Nuclear Research.

“What if a single conversation could make us rethink everything we know about space?” Rogan mused at the beginning of the episode.

As the cameras rolled, he introduced Max, a young TikTok star known for his engaging videos on physics, who quickly became a sensation after his discussion about the Mandela Effect went viral.

With over five million views, Max caught Rogan’s attention, leading to an invitation to the podcast.

Max, who built a telescope at age eight and created a homemade cloud chamber for his county science fair, spoke with a confidence that belied his age.

“CERN is a 27-kilometer ring under Geneva, designed for proton collisions,” he explained, his eyes sparkling with enthusiasm. “The goal is to recreate conditions from the early universe and search for new particles.”

Rogan leaned in, intrigued. “But what about these rumors of a portal? People are saying that CERN is opening doors to other dimensions.”

Max shook his head, a knowing smile on his face. “That’s just a myth. CERN publishes all its results online, and there’s no credible evidence of any portal experiments. It’s all about particle physics and understanding the universe.”

As the conversation unfolded, Max described the intricate workings of the Large Hadron Collider (LHC), the world’s largest particle accelerator.

“Inside that ring, machines work tirelessly, cooling the space to minus 271 degrees Celsius, colder than deep space,” he detailed. “Protons are accelerated to near light speed, colliding at special crossover points, mimicking conditions just after the Big Bang.”

Rogan nodded, captivated. “So, no portals, just a lot of science?”

“Exactly,” Max affirmed. “But the internet has a way of twisting narratives. It all started with a post about a strange light near one of the tunnels.

Someone turned that into a headline claiming CERN opened a ‘gateway to another world.’ Before anyone knew it, it spread like wildfire.”

The discussion took a turn as Max shared his method for verifying such claims. “I always check lab websites first. If I see something odd, I look for official statements. That’s how I found out about the portal story—it was just a joke taken too far.”

Rogan leaned back, contemplating. “It’s crazy how easily misinformation spreads. But what if there’s something more to it? What if hidden dimensions actually exist?”

Max’s expression shifted, reflecting the weight of the question. “Physicists have considered that space might have more dimensions than we can perceive. Theoretical models suggest extra dimensions could exist, but we haven’t found experimental proof yet.”

“Could CERN help us find that proof?” Rogan pressed.

“Potentially,” Max replied. “When particles collide at high energies, they could reveal signs of these hidden dimensions. But so far, all data aligns with our current understanding of physics. No unexplained gaps or missing energy have been detected.”

The conversation then veered into the realm of dark matter, a topic that has puzzled scientists for decades. “The universe contains far more dark matter than atoms, yet we can’t see it,” Max explained.

“Underground labs are searching for collisions between dark matter particles and atomic nuclei, but no clear events have been recorded.”

Rogan raised an eyebrow. “So, we’re still in the dark about dark matter?”

“Pretty much,” Max admitted. “Theories suggest it could be linked to extra dimensions, but we need more data to confirm anything.”

As their dialogue deepened, Max outlined his thoughts on the double-slit experiment, a cornerstone of quantum mechanics.

“It shows how measurement affects outcomes,” he said. “Particles behave differently when observed, which raises questions about reality at the quantum level.”

Rogan, clearly fascinated, asked, “What’s the biggest mystery in physics right now?”

Max thought for a moment. “Dark matter, for sure. But also the Higgs boson. We’ve discovered it, but we’re still unraveling its secrets. Understanding the Higgs field could lead us to new particles and interactions.”

As the episode drew to a close, Rogan reflected on the insights shared during their conversation. “You’ve opened my eyes to so much, Max. It’s incredible to see a young mind tackle these complex issues with such clarity.”

Max smiled, a mix of pride and humility. “Thanks, Joe. I just want to help people understand that science is about asking questions and seeking answers. There’s so much we don’t know.”

The podcast episode has since sparked discussions across social media, with many listeners expressing a newfound interest in physics and the mysteries of the universe.

While the notion of CERN opening a portal may have been debunked, the conversation between Rogan and Laughlin has illuminated the fascinating world of particle physics and the unanswered questions that continue to intrigue scientists and enthusiasts alike.

As Max Laughlin continues to share his passion for science, one thing is clear: the quest for knowledge is far from over, and perhaps the biggest breakthroughs are still waiting to be discovered.