Unraveling the Mysterious Dark Energy: Is it Just a Misunderstanding of the Universe?

For decades, dark energy has been a subject of intense debate and profound mystery in the field of cosmology. Traditionally, dark energy is perceived as a fundamental force propelling the accelerated expansion of the universe. However, recent perspectives suggest that dark energy could be a misinterpretation of the true nature of our cosmos. This article aims to explore this intriguing possibility and reframe our understanding of dark energy.

Reframing Our Understanding of the Universe

Presently, it is widely believed that the universe is expanding at an ever-accelerating rate, driven by a mysterious form of energy known as dark energy. However, this perspective hinges on a fundamental misunderstanding, according to some experts. Instead of dark energy being a separate force, it is proposed that the scale of the universe is continuously expanding without actual motion in space.

Dark Energy as a Misunderstanding

The concept of dark energy stems from the differential expansion observed in the universe, which is often inaccurately described as movement or velocity in space. This mistaken interpretation leads us to believe in an invisible, mysterious force called dark energy. In reality, what we are observing is the gradual expansion of the fabric of the universe itself, akin to the growth of a fluid medium over time.

Dark Energy as a Fluid Medium

Consider the universe as a fluid medium, similar to water or gas. This fluid, when in motion, creates shear planes and vortex pairs, known as 'condensed e/- fermion pairs' or 'electrons' and 'positrons'. These vortices, whether they cancel or bind, contribute to the evolution of larger particles we observe as matter.

If the vortices cancel, the energy returns to its ground state DE, but if they bind, i.e., align tip-to-tip, they evolve into larger, bound particles, such as protons, neutrons, and other matter we are familiar with. This understanding suggests that dark energy might not be a separate entity but rather an integral part of the expanding universe's fluidity.

Understanding Dark Vacuum Energy

Dark vacuum energy is another concept that might clarify the mystery behind dark energy. It is described by the equation (ch 4.9154^3 pm frac{8pi gmc^2}{2^2/c^4} frac{8pi gTuv}{c^4}), where (Tuv) represents the critical mass. This energy is a solution to the gravitational field equations and plays a crucial role in creating dark matter near the orbits of planets and galaxies. Notably, dark vacuum energy can expand the Planck mass to a proton scale, generating strong forces and giving rise to various particles at different energy levels.

The process involves several mathematical relationships. The gravitational constant (g 6.661181 times 10^{-11}) plays a significant role. The unit circle without an edge, as depicted in de Sitter space, represents the expanding nature of the universe. Here, the energy (pmc^2) is expressed as a tensor on a disc, which in turn creates particles such as tau neutrinos, pions, and quarks. These particles form the building blocks of protons and neutrons, which in turn contribute to the mass energy of the universe.

Dark vacuum energy is vital in creating pions, which account for more than 99% of a proton's mass energy. This concept challenges the conventional view of dark energy and provides a more cohesive explanation for the observed phenomena in the universe.

Conclusion

The belief that the universe is filled with dark energy might be a misunderstanding of its true nature. By reframing the universe as a fluid medium that expands over time, we can better understand the accelerating expansion of the universe without the need for a mysterious force. Dark vacuum energy, as described, offers a more coherent explanation for the observed phenomena, challenging the traditional view of dark energy.