A recent study has shaken up the traditional model of the universe by challenging the existence of dark matter. The CCC+TL model, which combines two theoretical models, has proposed a universe without dark matter, sparking a debate within the scientific community.
The study, led by Gupta, focuses on redshifts and galaxy distribution, providing evidence against the need for dark matter while aligning with cosmological observations. This research has implications for our understanding of the composition, expansion, and age of the cosmos, urging scientists to reconsider their beliefs about dark matter.
Despite constituting about 27% of the universe’s mass and energy, dark matter remains a mysterious element that plays a crucial role in the cosmos, affecting the gravitational effects on visible matter and cosmic background radiation. Detecting dark matter has been a significant challenge for scientists, with ongoing efforts to observe indirect evidence of dark matter particles.
The future of dark matter research holds promise for the direct detection of dark matter particles, potentially unlocking new insights into the composition of the universe. The full study, published in The Astrophysical Journal, presents a groundbreaking perspective on the cosmic model without dark matter, paving the way for further exploration and debate in the field of astrophysics.
