Tag Archives: Acceleration

Revolutionary Solution for Cosmic Acceleration: Overcoming Dark Energy Challenges

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Researchers from the Center for Applied Space Technology and Microgravity at the University of Bremen and the University of Transylvania in Brașov have unveiled a groundbreaking theoretical framework that challenges our understanding of the universe’s accelerating expansion, potentially rendering dark energy obsolete. They suggest that this acceleration may be an intrinsic characteristic of space-time geometry, rather than a result of unknown cosmic forces.

This artist’s impression traces the evolution of the universe from the Big Bang, through the formation of the Cosmic Microwave Background, to the emergence of galaxies. Image credit: M. Weiss / Harvard-Smithsonian Center for Astrophysics.

For over 25 years, scientists have been puzzled by the unexpected observation that the expansion of the universe is accelerating, counter to the gravitational pull.

In the 1990s, astronomers identified this acceleration through observations of distant Type Ia supernovae, leading to the prevalent theory of dark energy, an invisible force believed to drive this expansion.

Nevertheless, the actual nature of dark energy remains elusive within the Standard Model of cosmology.

Dr. Christian Pfeiffer and his team propose that we may better understand this cosmic acceleration by re-evaluating the geometric framework used to describe gravity.

Central to modern cosmology is Einstein’s theory of general relativity, which details how matter and energy shape space-time.

The universe’s evolution is modeled using the Friedman equation, which originates from Einstein’s principles.

The researchers introduce an innovative solution based on Finsler gravity, an extension of Einstein’s theory.

This approach enhances our understanding of spacetime geometry and allows for a more nuanced exploration of how matter, especially gases, interacts with gravity.

Unlike general relativity, which depends on rigid geometric forms, Finsler gravity presents a more versatile space-time geometry.

With this methodology, the authors recalibrated the equations governing cosmic expansion.

Informed by the Finsler framework, the modified Friedman equation predicts the universe’s acceleration phenomena without necessitating the introduction of dark energy.

In essence, the accelerating expansion emerges directly from the geometry of space-time itself.

“This is a promising hint that we may explain the universe’s accelerating expansion partly without dark energy, drawing from generalized space-time geometry,” Pfeiffer remarked.

This concept does not entirely dismiss dark energy or invalidate the Standard Model.

Instead, it implies that some effects attributed to dark energy might have their roots in a deeper understanding of gravity.

“This fresh geometric outlook on the dark energy dilemma provides avenues for a richer comprehension of the universe’s foundational laws,” stated Dr. Pfeiffer.

The research team’s paper is published in the Journal of Cosmology and Astroparticle Physics.

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Christian Pfeiffer et al. 2025. From a moving gas to an exponentially expanding universe, the Finsler-Friedman equation. JCAP 10:050; DOI: 10.1088/1475-7516/2025/10/050

Source: www.sci.news

Unprecedented Acceleration in Antarctic Glacier Retreat

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Hectoria Glacier’s terminus in February 2024 after an unprecedented fast retreat

Naomi Ochiwat

Researchers have observed what is thought to be the quickest retreat of Antarctic glaciers recorded in contemporary times.

The Hectoria Glacier, located in the Antarctic Peninsula, has receded by 25 km in just 15 months, resulting in a collapse rate that could be up to ten times faster than current documentation suggests.

Naomi Ochiwat, a professor at the University of Colorado Boulder, and her team attribute this rapid decline to structural weaknesses within Hectoria, particularly as its slender trunk retreated across a flat section of the ocean floor, referred to as an ice plain. This situation has led to uncontrolled iceberg formation.

Scientists express concerns that this collapse mechanism could endanger other Antarctic glaciers, potentially leading to significant effects on sea level rise.

“The pressing question is: Was the situation with Hectoria an isolated incident resulting from a unique set of circumstances, or could it indicate a broader disaster waiting to occur in other areas?” Ochiwat comments.

The issues facing Hectoria began in early 2022 when a section of sea ice detached from the front of the glacier, leading to the collapse of its floating ice tongue. The loss of this stabilizing ice subjected the glacier to new pressures, accelerating its flow and thinning.

However, the most striking alteration took place on the ice field, where the trunk of Hectoria, which had been secured on stable bedrock, appeared to thin considerably, leaving most of it barely resting on the ocean floor.

Researchers noted that the entire section lifted almost instantly, revealing vulnerabilities within the trunk and initiating destruction. The buoyant force fragmented the iceberg, resulting in what was termed a “glacial earthquake,” which was detected by seismic instruments. The glacier lost 8 km in length during November and December of 2022.

Satellite imagery showing Hectoria Glacier’s terminus on October 26, 2022 (left) and February 23, 2023

Copernicus/ESA

Team members, including Ted Scambos, another professor at the University of Colorado Boulder, described the rapid deterioration as “astonishing,” cautioning that this retreat could alter the dynamics of significant glaciers across the continent.

Nonetheless, this viewpoint has sparked debate. Fraser Christie from Airbus Defense and Space remarked on the “substantial disagreements” among glaciologists regarding whether Hectoria was fully contacting the bedrock, citing a lack of precise satellite data.

Anna Hogg, a researcher from the University of Leeds in the UK, stated that their findings indicated the ice in the claimed ice field was consistently “entirely floating,” thus rejecting the notion of collapse due to buoyancy.

Christine Batchelor, a professor at Newcastle University in the UK, also expressed skepticism about the team’s explanation. “If this ice was genuinely floating, as has been widely discussed, the news would simply be ‘Ice shelf calves iceberg,’ which is relatively common,” she noted.

Topics:

  • Climate Change/
  • Antarctica

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Source: www.newscientist.com

Increasing marine heat sources indicate acceleration of climate change.

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The high seawater temperature that contributed to the weather of California’s storm in late 2023

Kevin Carter/Getty Image

Researchers say the rapid increase in marine temperature up to the level of the record breaking in 2023 and 2024 is a sign that the pace of climate change has accelerated.

The world marine temperature reached a record high for 450 days in 2023 and early 2024. The Ehninho’s weather pattern, which appears in the Pacific Ocean, can explain some of the extra heat, but about 44 % of the recorded warmth is decreasing to the world. According to the sea, which absorbs heat from the sun, the acceleration speed Christmer chat At a British lady university.

Merchants and his colleagues have analyzed marine warming over the past 40 years using satellite data, concluding that the speed of warming has been more than four times since 1985.

The team says that this rapid acceleration depends on the rapid change of the EEI of the earth’s energy. This is the scale of how much heat is trapped in the atmosphere. The EEI has doubled since 2010, and the sea has absorbed much more heat than before.

“The sea generally sets a pace of global warming,” says a merchant. “Therefore, as an extension, global warming is accelerating as a whole, including land.” Merchants are “I personally convinced that accelerating climate change is a major factor in recent marine temperature increase. I say. “

Based on their analysis, merchants and his team predict that marine warming will continue to increase rapidly in the next few decades. “If the tendency of the EEI is out of the future, a large amount of global warming can be expected in the next 20 years, as in the past 40 years.

The climate model hopes that the speed of climate change will accelerate, but the analysis of the merchant suggests that the trend of the real world is in line with the most pessimistic model forecast. “The fact that this data -driven analysis is placed in a high -end high -end that the model predicted is a problem that needs to be viewed,” he says.

However, early data suggests that EEI decreased in 2024 after a recorded spike in 2023. Some researchers argue that this data may not accelerate in the worst scenario.

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Source: www.newscientist.com