Huntsville, AL – The big Bang theory, the prevailing description for the universe’s origin and evolution, is facing a new challenge from an unexpected corner: the University of Alabama. Physicist Richard Lew has proposed a radical alternative, suggesting the universe was not born in a single, explosive event but rather through a series of “temporary singularities.”

According to Lew’s hypothesis, these brief, invisible bursts injected energy and matter into space, gradually giving rise to galaxies, stars, and the cosmic structures observed today. what’s more, this model perhaps eliminates the need for dark matter and dark energy, two mysterious components that make up approximately 95% of the universe, according to NASA.

Temporal Singularities: A New Cosmic Engine?

Lew’s work, detailed in a recent article, builds upon his previous research, which presented a model of gravity without mass. This earlier model sparked considerable debate within the scientific community. The new article introduces the concept of “temporary singularities” as a comprehensive alternative to the Big Bang and questions the necessity of dark matter and dark energy.

“The new model can explain the formation of structure and stability, and also key observed properties of the expansion of the universe as a whole, wiht the help of singular density in time, which evenly effect the entire space, replacing traditional dark matter and dark energy,” Lew stated.

These “stepped bursts,” as Lew describes them,occur rapidly,making them exceptionally difficult to observe directly with current technology. The implications of this research extend beyond theoretical cosmology, potentially influencing our understanding of basic physics and the nature of reality itself.

Addressing the Conservation laws

Lew acknowledges the historical criticism leveled against alternative cosmological models, especially those that seemingly violate the laws of conservation of mass and energy. He specifically mentions British astronomer Fred Hoyle’s steady-state model,which proposed the continuous creation of matter.

However, Lew argues that his theory circumvents this issue: “His own theory does not violate these laws, since substance and energy either arise or disappear in a series of sudden and very short -term bursts.” In essence,the temporary singularities represent fluctuations in the energy density of space-time,rather than a continuous creation of matter from nothing.

Dark Matter and dark Energy: Not So Omnipresent?

A central tenet of Lew’s theory is that dark matter and dark energy are not constant, ubiquitous components of the universe. Instead,he proposes that they manifest only during these brief moments when energy and matter are injected into space,creating a negative pressure similar to that attributed to dark energy.

This repulsion force, according to Lew, counteracts gravity, driving the accelerated expansion of the universe. Outside of these fleeting bursts, dark matter and dark energy are effectively absent, a stark departure from the standard cosmological model.

challenging the Big Bang: A Single Event vs. Continuous Bursts

The fundamental divergence between Lew’s model and the Big Bang lies in the interpretation of these singularities. While the Big Bang posits a singular, cataclysmic event at the beginning of time, Lew’s model suggests these bursts occur repeatedly throughout cosmic history. This nuanced perspective offers a fresh framework for understanding the universe’s evolution.

This isn’t the frist time the Big Bang theory has faced scrutiny.In 2024, astrophysicist Lior Shamir published research analyzing the redshift of over 30,000 galaxies, finding results consistent with the “tired light” hypothesis, an older, largely discredited theory that suggests photons lose energy as they travel across vast distances.

While Shamir’s findings were met with skepticism by many cosmologists, they underscore the ongoing debate and the need for continued research into the universe’s origins and ultimate fate.

Counterargument: The Success of the Standard Model

While Lew’s theory presents an intriguing alternative, it’s vital to acknowledge the significant successes of the standard cosmological model. The Big Bang theory has been extremely successful in explaining a wide range of observations, including the cosmic microwave background radiation, the abundance of light elements in the universe, and the large-scale structure of galaxies.

Furthermore, decades of observational data support the existence of dark matter and dark energy, even though their exact nature remains a mystery. Any new cosmological model must not only explain the phenomena that the Big Bang theory struggles with but also account for the vast body of evidence that supports the standard model. Lew’s theory will need to undergo rigorous testing and refinement to gain broader acceptance within the scientific community.

FAQ: Understanding the New Model