Scientists can’t believe they found an interstellar tunnel which connects to neighboring superbubbles. This discovery, which seems straight out of a science fiction film, is further proof that we are facing a universe that can bring us exceptional news. Physicists are experts who don’t hesitate to know a little more about this system we live in, so now is the time to start thinking about what’s coming, what future we might witness.
Advancing the future outside of planet Earth is something we need to start thinking about, seeing what lies ahead as new discoveries come to us. It is time to focus clearly on certain elements which could be those which will make the difference. Without a doubt, the time has come to start dreaming big, to find out what those experts who know very well the future that awaits us and with which perhaps we should familiarize ourselves are telling us. This interstellar tunnel is one of the discoveries of the moment.
Scientists can’t believe
Scientists have discovered a number of elements which until now was only a gateway to a limitless universe. It is important to be able to explore the planet, to know certain data that will help us carry out this journey that we wish to undertake.
This moment will therefore have arrived when the universe invites us to know a little more about what time has in store for us and, in particular, about a series of elements that can ensure that the long-awaited space trip that we all wish for see it come to fruition. easier or more complicated. We have dreamed and seen spaceships departing from many points, but none have gone far.
Human beings are still very far from the destiny that awaits them. But that doesn’t mean that we are going to discover a type of element that has become essential. We live in a time where we can really start to look at some details that may be essential and that we may not have imagined until now.
This space journey could be marked by a large bubble that has a series of qualities that we may not have thought until now could exist. This discovery was a major surprise.
They find an interstellar tunnel that connects stellar superbubbles
Experts do not hesitate to explain what is inside stellar superbubbles, a phenomenon which, little by little, could end up making a difference. The time will therefore have come to start creating a series of elements that can be those that will mark these days.
Without a doubt, we are facing a discovery which, as an article published in the specialized journal Phys indicates: “Our solar system lives in a low-density environment called the Bubble. Local hot air (LHB), filled with a million-degree thin hot gas that primarily emits soft X-rays. A team led by scientists from the Max Planck Institute for Extraterrestrial Physics (MPE) used data from the eROSITA All-Sky Survey and discovered a large-scale temperature gradient in this bubble, likely linked to past explosions of supernova which expanded and heated the bubble. “.
Continuing with the same explanation: “The wealth of eROSITA data also allowed the team to create a new 3D model of hot gases in the solar district. Highlights of this work include the discovery of a new interstellar tunnel to the constellation Centaurus, potentially connecting our LHB to a neighboring superbubble. The research is published in the journal Astronomy & Astrophysics. The idea of the LHB has been around for about half a century and was first developed to explain the ubiquity of X-ray background below 0.2 keV. Photons of such energies cannot travel very far in the interstellar medium before being absorbed. Along with the observation that there is almost no interstellar dust in our immediate environment, the scenario was presented in which a soft X-ray emitting plasma displaces neutral materials in the solar neighborhood, forming the “hot bubble local”. This understanding of our immediate environment has not been without challenges, particularly after the discovery of the wind and solar charge exchange process in 1996, an interaction between ions from the solar wind and the neutral atoms of the geocorona and the terrestrial heliospheres which emit X-rays at energies similar to those of the LHB. “After years of analysis, the consensus now is that both contribute to the soft X-ray background and that the LHB must exist to explain the observations.”
