Is the universe really expanding or is it just a mirage A thoughtprovoking study challenges conventional beliefs about our cosmic reality.

The expansion of the universe could be a mirage, a potentially controversial new study suggests.

This rethinking of the cosmos also suggests solutions for the puzzles of dark energy and dark matter, which scientists believe account for around 95% of the total energy and matter in the universe but remain shrouded in mystery.

The novel new approach is detailed in a paper published June 2 in the journal Classical and Quantum Gravity, by University of Geneva professor of theoretical physics Lucas Lombriser.

Scientists know the universe is expanding because of redshift, the stretching of light’s wavelength towards the redder end of the spectrum as the object emitting it moves away from us. Distant galaxies have a higher redshift than those nearer to us, suggesting those galaxies are moving ever further from Earth.

More recently, scientists have found evidence that the universe’s expansion isn’t fixed, but is actually accelerating faster and faster. This accelerating expansion is captured by a term known as the cosmological constant, or lambda.

The cosmological constant has been a headache for cosmologists because predictions of its value made by particle physics differ from actual observations by 120 orders of magnitude. The cosmological constant has therefore been described as “the worst prediction in the history of physics.”

Cosmologists often try to resolve the discrepancy between the different values of lambda by proposing new particles or physical forces but Lombriser tackles it by reconceptualizing what’s already there.

“In this work, we put on a new pair of glᴀsses to look at the cosmos and its unsolved puzzles by performing a mathematical transformation of the physical laws that govern it,” Lombriser told Live Science via email.

In Lombriser’s mathematical interpretation, the universe isn’t expanding but is flat and static, as Einstein once believed. The effects we observe that point to expansion are instead explained by the evolution of the mᴀsses of particles — such as protons and electrons — over time.

In this picture, these particles arise from a field that permeates space-time. The cosmological constant is set by the field’s mᴀss and because this field fluctuates, the mᴀsses of the particles it gives birth to also fluctuate. The cosmological constant still varies with time, but in this model that variation is due to changing particle mᴀss over time, not the expansion of the universe.

In the model, these field fluctuations result in larger redshifts for distant galaxy clusters than traditional cosmological models predict. And so, the cosmological constant remains true to the model’s predictions.

“I was surprised that the cosmological constant problem simply seems to disappear in this new perspective on the cosmos,” Lombriser said.

A recipe for the dark universe
Lombriser’s new framework also tackles some of cosmology’s other pressing problems, including the nature of dark matter. This invisible material outnumbers ordinary matter particles by a ratio of 5 to 1, but remains mysterious because it doesn’t interact with light.

Lombriser suggested that fluctuations in the field could also behave like a so-called axion field, with axions being hypothetical particles that are one of the suggested candidates for dark matter.

These fluctuations could also do away with dark energy, the hypothetical force stretching the fabric of space and thus driving galaxies apart faster and faster. In this model, the effect of dark energy, according to Lombriser, would be explained by particle mᴀsses taking a different evolutionary path at later times in the universe.

In this picture “there is, in principle, no need for dark energy,” Lombriser added.

Post-doctoral researcher at the Universidad ECCI, Bogotá, Colombia, Luz Ángela García, was impressed with Lombriser’s new interpretation and how many problems it resolves.

“The paper is pretty interesting, and it provides an unusual outcome for multiple problems in cosmology,” García, who was not involved in the research, told Live Science. “The theory provides an outlet for the current tensions in cosmology.”

However, García urged caution in ᴀssessing the paper’s findings, saying it contains elements in its theoretical model that likely can’t be tested observationally, at least in the near future.

Originally published on LiveScience.com

Reference:

Lucas Lombriser, Cosmology in Minkowski space

Published by IOP Publishing Ltd

DOI 10.1088/1361-6382/acdb41

Related Posts

Diving into the mysteries of the cosmos Astronomers challenge existing theories with a mindboggling discovery of an unexpected exoplanet.

The discovery of a gaint exoplanet that is far too mᴀssive for its sun is calling into question what was previously understood about the formation of planets…

Mindblowing discovery alert Astronomers have just found a planetforming disk beyond our Milky Way galaxy unlocking new cosmic secrets.

Astronomers have achieved a significant milestone in space exploration by identifying, for the first time, a planet-forming disk around a young star in a galaxy outside our…

Unlocking the mysteries of dark matter through cuttingedge research at the worlds largest particle accelerator. The pursuit of knowledge knows no bounds.

The existence of Dark Matter is a long-standing puzzle in our universe. Dark Matter makes up about a quarter of our universe, yet it does not interact…

Breaking news from the cosmos Astronomers have found an alien star system with six exoplanets orbiting in a rare and harmonious resonance chain. The universe never fails to amaze us

In an extraordinary discovery, astronomers have identified a planetary system, not far from our Solar System, where six exoplanets orbit their star in a rare and harmonious…

Discovering a mesmerizing star system with six planets dancing in harmony to an otherworldly rhythm. Natures symphony continues to astound us.

Scientists have discovered a rare sight in a nearby star system: Six planets orbiting their central star in a rhythmic beat. The planets move in an orbital…

Exciting news as the United States makes plans to return to the moon after over 50 years. A historic moment ahead

More than 50 years after the last Apollo mission, the United States will try once again to land a craft on the moon on January 25, said…