For over two decades, scientists have relied on the concept of dark energy to explain why the universe’s expansion appears to be accelerating. Yet, despite its prominence in modern cosmology, dark energy remains a purely hypothetical force—one that has never been directly observed or experimentally verified. As questions around its existence continue to grow, a groundbreaking alternative emerges from the work of Scientist Baldevkrishan Sharma: the Nu Constant, presented in his theory of Natural Universe Expansion (NUE).
Developed under the Astrogenesis Research Foundation, NUE introduces the Nu Constant as a new cosmic law of expansion—one that integrates time as a key variable. Unlike Hubble’s Constant, which assumes a linear and fixed expansion rate, the Nu Constant recognizes that the universe expands non-linearly and exponentially over time. This compounding growth eliminates the need for dark energy entirely.
So, what exactly is the Nu Constant? Sharma defines it as 98.2889 km/s/Mpc, a value derived through the application of a time-integrated, exponential growth function. It explains how galaxies move apart naturally—not due to some invisible force—but because cosmic expansion is an inherent property of the universe’s matter-energy fabric. This renders the mysterious concept of dark energy redundant.
NUE also introduces the idea of a Living Organic Universe. In this model, celestial bodies not only move apart but also grow in mass and volume over time while maintaining constant density and temperature. This dynamic behavior results in a universe that evolves like a living system, where growth and equilibrium coexist. It stands in contrast to the static assumptions of traditional cosmology, which have led to unresolved puzzles like the “Hubble Tension.”
By replacing dark energy with the Nu Constant, Sharma not only addresses these tensions but also provides a unified framework that aligns with observable data and offers predictive power. This is a crucial step for scientists and PhD students who seek a model rooted in natural laws rather than unexplained phenomena.
The implications of the Nu Constant are profound. It simplifies the cosmological model, removes reliance on hypothetical constructs like dark energy and dark matter, and brings time into the spotlight as a central variable in universal dynamics. For cosmologists, astrophysicists, and researchers across theoretical physics, NUE opens a new pathway to understanding the universe—not as a passive stage, but as an actively evolving, self-regulating system.
The future of cosmology may not depend on finding dark energy—but on acknowledging that it may never have existed in the first place.
To explore the Nu Constant and the complete NUE model, visit the Astrogenesis Research Foundation at
www.arf-research.com