Scientist Offers Proof We Live in a Giant Multi-Galactic Bubble - Top10listverse is a website provides information: aliens, ufo, tips –>

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Scientist Offers Proof We Live in a Giant Multi-Galactic Bubble

“The Bubble Boy” is a classic episode of the sitcom “Seinfeld” which centered on a boy living in a bubble that protected him from germs but not George Costanza. The sci-fi show “Under the Dome” put an entire city in a bubble, while Freeman Dyson’s Dyson Sphere theoretically enclosed a star inside a round container. While those ‘bubbles’ exist or are conceivable, a Swiss physicist has proposed that the Milky Way galaxy and a thousand or so galaxies around it are in a giant bubble that is protecting us from supernovae and miscalculations in the rate of the expansion of the universe. Is there really a multi-galactic bubble or is this Swiss scientist missing a few blades in his mental Army knife?

“A significant tension has become manifest between the current expansion rate of our Universe measured from the cosmic microwave background by the Planck satellite and from local distance probes, which has prompted for interpretations of that as evidence of new physics.”

Lucas Lombriser, a professor in the Theoretical Physics Department at the University of Geneva, is the author of “Consistency of the local Hubble constant with the cosmic microwave background,” a paper published in the journal Physics Letters B (and summarized in a press release), where he brings to light “tension” in the theoretical physics world caused by conflicting measurements of the expansion of the universe since the Big Bang. Specifically, the so-called “Hubble constant” — which is used to determine distances in a universe where galaxies move faster the farther away the get from a point in space – isn’t so ‘constant’ anymore.

Hubble telescope – named for Edwin Hubble, astronomer and inventor of the Hubble constant

Why is this a problem? Determining the history of the expansion of the Universe since the Big Bang is necessary to learn more about its energy composition, the validity of General Relativity and the cosmological principle which says that the distribution of matter in the universe is homogeneous and uniform on a large scale and there are no observable irregularities. However, the Hubble constant (50,400 mph per million light-years or 73.4 km/s/Mpc) is strangely different when using data from the European Space Agency’s Planck satellite, which comes from measuring the cosmic microwave background that is an echo of the Big Bang. That data puts the Hubble constant at 46,200 mph per million light-years or 67.4 km/s/Mpc. In 2019, researchers used the light of red giant stars to put the Hubble constant at 47,300 mph per million light-years or 69.8 km/s/Mpc. All three are valid … so which one is it?

“If we were in a kind of gigantic ‘bubble,’ where the density of matter was significantly lower than the known density for the entire universe, it would have consequences on the distances of supernovae and, ultimately, on determining H0.”

Rather than solve the problem, Lombriser fixes the numbers by introducing a giant bubble or ‘Hubble bubble’ with a diameter of 250 million light years that holds 1,000 galaxies, including our own, and has a lower density of matter than the rest of the universe. If the density of matter inside the Hubble bubble was 50% lower than for the rest of the universe, a new value would be obtained for the Hubble constant which would agree with the one obtained using the cosmic microwave background.

Is the Hubble bubble a physical boundary? Is it really round?

So, it seems Lombriser’s Hubble bubble isn’t really a physical structure as much as it’s just a defined area with a lower density than the surrounding rest of the universe. It conveniently fixes the existence of two or more Hubble constants by using two sets of numbers to avoid conflicting answers. This still sounds like he’s massaging the numbers to make them fit the answer rather than finding the cause of the differences in universe expansion speeds, but that could be due to the fact that understanding and explaining life, the universe and everything is a bit beyond this writer’s pay grade.

Did Lombriser fix a problem using a theoretical tool that’s one corkscrew shy of a Swiss Army knife?

“The probability that there is such a fluctuation on this scale is 1 in 20 to 1 in 5, which means that it is not a theoretician’s fantasy. There are a lot of regions like ours in the vast universe.”

Are there? If the universe suddenly stops expanding, we know who to blame.

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About Minh Hiếu

Le Minh Hieu is a national-level weightlifter and a Singapore Weightlifting sports performance coach. Hieu's biggest passion is helping everyone find confidence, happiness, and health through fitness.

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