James Webb Telescope Discovers "Dark Stars," Celestial Bodies Fueled By Self-Annihilating Dark Matter, Challenging our Understanding of the Universe.
James Webb Telescope Detects Potential "Dark Stars" Challenging Our Understanding of Celestial Bodies.
Dark Stars Derive Energy from Self-Annihilating Dark Matter, Not Atomic Fusion Like Ordinary Stars.
Dark matter, an Invisible Substance, is a Critical Component of Dark Stars, Comprising 0.1% of Their Mass.
Dark Stars are Giants with Massive Sizes and Brightness, Surpassing the Sun by Millions of Times.
These Celestial Bodies can Grow by Absorbing Gas from Space, Reaching Supermassive Status.
Dark Stars Provide Insights into Ancient Enigmas and Cosmic Origins, shedding Light on the Universe's Early Stages.
Webb's Data May Uncover "Smoking Gun" Evidence of Dark Stars, Revealing More About these Enigmatic Objects.
Dark Stars May Have Formed Due to the Presence of Dark Matter and Hydrogen/Helium-Rich Regions During Star Formation.
They Offer the Possibility of Detecting Dark Matter Particles and Studying Their Properties.
Dark Stars Differ from Black Holes, as the Former Derive Energy from Self-Annihilating Dark Matter, While the Latter Result from the Collapse of Massive Stars.