Scientists Discovered Something Kinda Alarming: The Universe Shouldn't Actually Exist

Table of Contents

• The universe is filled with a field called the Higgs field, which gives every object its mass.
• But the Higgs field isn't entirely stable, and if it were to "bubble," it would change so much that anything in that "bubble" space would basically disappear.
• A team of scientists has claimed that the presence of primordial black holes should have triggered significant fluctuations in the Higgs field, causing nothing, in fact, to be formed.

Their beginnings are shrouded in mystery. After all, it’s not like we can just go back in time and check it out ourselves. Instead, we’re restricted to piecing together our universe’s earliest history from hints, echoes, and distant signals radiating out into the vast expanse of space.

—if many of our current models are accurate, we wouldn't be here at all. In fact, nothing would presumably exist, as the universe should have collapsed in on itself.

Self-destructed? I mean, we're here to inquire about all these pressing matters. So, what's going on here?

scientists' research on the properties of the Higgs boson continues.

This is considered one of the major accomplishments of modern physics. This is largely because it proved the existence of the Higgs field—a field similar to electricity or magnetism that essentially gives objects their mass. It's based on complex quantum mechanics, but in simple terms, without the Higgs field, nothing would actually exist.

.

dramatically.”

They existed under entirely different physical laws than our own universe.

"If the quarks that make up the atomic nucleus were to suddenly dislocate, essentially it would mean that anyone experiencing this would likely not be able to communicate it since technological advancements are not sophisticated enough to measure or report such an event.”

In short, the alignment of the universe, that actually should have already occurred,

During an era we call inflationary periods. Areas of space were packed so tightly back then that they could've folded in on themselves and transformed into tiny black holes from a standpoint of supernovas. Just... collapse right into a black hole.

Really very quickly. But according to Heurtier and his team, they would already have had an incredibly powerful impact on the Higgs field.

We talked about those universe-changing black holes before? The ones we were referring to? Yes, the formation of primordial black holes should have produced them wherever massive stars formed in the early universe.

As many current models indicate, the field should have remained stagnant, unable to develop or progress in any way.

But we exist, and so does everything around us. So, what does that ultimately mean?

It must be found in the original black holes from a long time ago.

There is still a lot we don't know about that which will ultimately blow everything wide open.

You can question everything, and you should. Who knows what secrets you'll uncover?