Medicine & TechnologyA recent study developed a novel approach of detecting the rare short gravitational wave from space phenomenons such as black hole and nuetron star collapse and collissions.
A large alliance of astrophysicists recently reported it has made the first-ever confirmed detections of shockwaves generated by mergers between black holes and neutron stars.
A news device was developed by experts to detect primordial black holes from the big bang. The tennis ball-sized black holes emit gravitational waves that can help us understand the origin of our universe.
Space-time fissures, also known as cosmic strings, can now be observed through the help of 'memories.' These memories are imprints of the gravitational waves on space-time fabric.
Gravitational-wave scientists reported that in the event of a collision and subsequent merging of two black holes, the resulting black hole "chirps" not just once, but multiple times.
Black holes are believed to have existed since the formation of the galaxy, yet we know so little about them. A series of simulations reveals what happens when two stars collide and how scientists can detect the energy of black holes in space.
Many physicists said that gravitons exist but some believe that it is impossible to observe it in the natural world. Recent studies suggest that gravitons create 'noise' making them easier to spot.
Out in the cosmos, the collision of two neutron stars caused enough ruckus to be heard in known space. These gravitons scattered and sent a graviton wave that was detected on earth way back in 2017. There is speculation that this event is a black hole and it just made the theory of relativity a bit out of whack.
Scientists on earth are aware there is a big universe out there, and we are just one of many objects in it. One of the concerns which are of tantamount concern is the existence of massive black holes, announcing their presence with regularity.