Researchers say a significant portion of the dark matter in the universe is made up of primordial black holes. These entities originated shortly after the Big Bang and have the ability to condense the mass of an asteroid into a volume comparable to that of an atom. They may pass through the Solar System every decade or so, and their presence could be detected if Mars moves one meter — a movement that can be measured, since we are able to detect displacements as small as 10 centimeters.
Stay reading because we are going to tell you all about Black holes near Mars, the new companions in our Solar System.
Black holes passing through the cosmos
The hypothetical entities known as primordial black holes emerged just a second after the Big Bang, approximately 13.800 billion years ago. They would subsequently disperse throughout the universe, moving unimpeded. Unlike “normal” black holes, which As we can now reproduce, primordial black holes have distinctive characteristics.
These black holes may make up the predominant part of dark matter. But what exactly is dark matter? It refers to particles that do not interact with light, but do interact with gravity, which makes their detection extremely difficult. In fact, their existence has not been conclusively established. Theoretically, Dark matter could account for up to 85% of the universe, while the remaining 15% comprises visible matter.. Recently, some amazing photographs have improved our understanding of these elusive entities.
A study published in the journal Physical Review indicates that a primordial black hole may pass through the Solar System approximately every decade.
The research began with calculations made by its lead author, astrophysicist Tung Tran, on the effects of a primordial black hole passing near a person. The conclusion reached It was found that such an event would propel a person 6 meters in just one second.
It is quite plausible that it could approach a planet within the system. Advanced calculations have determined that such black holes could pass through our system approximately once every decade, and we would have the means to anticipate their arrival.
Primordial black holes near Mars
The crucial aspect is that their trajectory brings them close to Mars, although "near" refers to a distance of approximately 450 million kilometersThe authors of the study examined the possible consequences of a black hole approaching Earth, which could induce a wobble in the Moon's orbit. However, due to the multitude of factors that could explain such phenomena, simultaneous analysis of our planet and the Moon is not considered optimal.
For Tung, observing Mercury, Venus and Mars was of utmost importance. These planets exhibited detectable motions that could potentially be attributed to the influence of a black hole. Given our current ability to determine the distance from Earth to Mars to within 10 centimeters, this situation presents an ideal opportunity for analysis.
While everything seems interconnected and well-coordinated, a complication arises: asteroids can induce similar motions. An asteroid has the potential to displace a planet. However, it is necessary to take into account that these celestial objects travel at significantly slower speeds compared to a primordial black hole, which moves at a speed of 200 kilometers per second. Consequently, the motion caused by an asteroid would manifest itself over a longer period of time than that produced by a primordial black hole.
The research also suggests that more complex simulations need to be performed to improve our understanding. Currently, Primordial black holes remain hypothetical entities and therefore progress will be made gradually.
Black holes throughout the solar system
Some people within the scientific community propose the existence of tiny black holes hidden in surprising places such as asteroids, moons and even planets, including Earth. Generally linked to colossal astronomical events, The possibility that these tiny counterparts exist has ushered in a new field of scientific research.
The emergence of these tiny black holes may have occurred shortly after the Big Bang, potentially being so minuscule that they remain undetected, hidden within cosmic entities. This notion of “primordial black holes” presents a challenge to our understanding of such phenomena, as they are typically imagined as colossal entities consuming entire galaxies. The enigma of tiny black holes.
The idea that black holes may be closer than we thought is nothing new. In fact, we have already seen that there has been speculation about the possible existence of these enigmatic entities in the vicinity of Mars or even outside the established orbits of our solar system.
Primordial black holes are thought to have emerged from the tumultuous conditions following the Big Bang, during which significant density fluctuations in the nascent universe may have led to the formation of small, hyperdense entities. A recent study by astronomers proposes that certain black holes might have been captured by celestial bodies, including moons or asteroids, rather than floating aimlessly through the expanding cosmos. This marks a profound shift in our understanding of the universe, similar to the advances made when we learned to reproduce the behaviors exhibited by black holes.
If there were a primordial black hole on our planet, Its mass would far exceed its size, making it insignificant in that sense. Consequently, it could be exerting gravitational influences that remain undetectable to the naked eye.
However, some scientists have suggested that one of these phenomena may explain the gravitational anomalies detected at specific locations within the solar system. This notion complements the recent discovery indicating the presence of a black hole significantly closer to Earth than previously estimated.
Although the concept of tiny black holes hidden in the cosmos may seem like science fiction, some researchers have proposed possible future applications. Among the boldest ideas currently being discussed in the scientific community is the feasibility of establishing an artificial black hole on the Moon in order to generate unlimited energy.
I hope that with this information you can learn more about primordial black holes and how they may be around our solar system.