Recent studies and experiments are challenging traditional views on dark matter and gravity. New experiments are being launched to search for ultra-lightweight particles that could constitute dark matter. A study proposes that gravity can exist without mass, potentially negating the need for dark matter by attributing gravitational effects to topological defects formed during a cosmological phase transition. MIT researchers have proposed that primordial black holes, formed shortly after the Big Bang, may carry a nuclear property known as a color charge and could be a type of dark matter. Additionally, new research indicates that Earth's ionosphere could interact with hypothetical dark matter waves, producing detectable radio waves. Physicists at MIT propose that the early universe, within the first quintillionth of a second after the Big Bang, produced microscopic black holes in a quark-gluon plasma, which could explain dark matter's presence.
Researcher suggests that gravity can exist without mass, mitigating the need for hypothetical dark matter https://t.co/h0fBIqgzXB
Physicists at MIT propose that the early universe, within the first quintillionth of a second after the Big Bang, produced microscopic black holes with significant nuclear charge. These primordial black holes, formed in a quark-gluon plasma, could explain dark matter's presence… https://t.co/yPEpgfU7Vh
🗄️ From the archive: A new theory explains the mysterious expansion of the universe and why it started accelerating soon after the big bang. https://t.co/7I6BqpUqVl
New research suggests that Earth's ionosphere, a plasma-rich layer of the upper atmosphere, could interact with hypothetical dark matter waves, producing detectable radio waves. This interaction might occur when dark matter waves resonate with plasma waves, potentially revealing… https://t.co/RbN8BqX1cE
New Researchers believe gravity could exist even without mass, reducing the need for hypothetical dark matter. More: https://t.co/ARzKhhO8II https://t.co/Vaj2kp1U0p
MIT researchers suggest that primordial black holes, potentially a type of dark matter, could have formed shortly after the Big Bang and carried high levels of a nuclear property known as a colour charge. These super-charged black holes may have influenced the early universe's…
"...there are theoretical reasons to suspect that the universe is finite." ‘We’re trying to find the shape of space’: scientists wonder if the universe is like a doughnut by @philipcball @guardian https://t.co/Qhi0WuQQ1Q
We have barely begun to understand the beauty of the universe. We are still at the beginning (especially if our eschatological maximum clock might be set by the time it takes for black holes to evaporate). https://t.co/bCniwy4ABY
Dark matter is just the superposed electric fields that surround all matter. Since they are neutral, they can't be detected by EM means. My own hypothesis. PS. Dark matter is the reason that measurements of the gravitation constant G are plagued with large uncertainties. https://t.co/56ynHBHEA1
A new study proposes that gravity can exist without mass, which might negate the need for dark matter. The author suggests that the gravitational effects attributed to dark matter could instead be explained by topological defects formed during a cosmological phase transition.… https://t.co/ffQQjpko6x
Perhaps dark matter is made of an entirely different kind of particle than the ones physicists have been searching for. New experiments are springing up to look for these ultra-lightweight phantoms. https://t.co/ieLgbo0l7s