La distribuzione della materia scura nelle galassie nane
Alcuni astronomi della Università del Texas a Austin ritengono di aver trovato la risposta ad un mistero che dura da circa 20 anni relativo alla distribuzione della materia scura nelle galassie nane. Gli scienziati hanno osservato che la distribuzione, in media, segue una legge molto semplice in cui la densità diminuisce dal centro della galassia, anche se la distribuzione può variare da galassia a galassia.
Dark matter is matter that gives off no light, but that astronomers detect by seeing its gravitational tug on other objects (like stars). Theories abound on what dark matter might be made of, unseen particles, dead stars, and more, but nobody knows for sure. Though mysterious, understanding the nature of dark matter is important, because it makes up most of the matter in the Universe. The only way to understand how the cosmos evolved to its present state is to decode dark matter’s role. For that reason, astronomers study the distribution of dark matter within galaxies and on even larger scales. Dwarf galaxies, in particular, make great laboratories to study dark matter, because they contain up to 1,000 times more dark matter than normal matter. Normal galaxies like the Milky Way, on the other hand, contain only 10 times more dark matter than normal matter. For the past 20 years, observational astronomers and theorists have debated how dark matter is distributed in galaxies. Observational astronomers, through their studies of telescope data, have argued that galaxies have a fairly uniform distribution of dark matter throughout. Theorists, backed by computer simulations from the 1990s, have argued that dark matter density decreases steadily from a galaxy’s core to its hinterlands. The disagreement is known as the “core/cusp debate.” This work set out to study the question using both data from telescopes and newly developed computer modeling. The project started out not assuming core or cusp theory is right but just asking ‘what is it?.’ These new models allowed to take this approach. Astronomers used telescope observations of several of the satellite galaxies orbiting the Milky Way, including the Carina, Draco, Fornax, Sculptor, and Sextans dwarf galaxies. The work involved running many supercomputer models for each galaxy to determine the distribution of dark matter within it, using the University’s Texas Advanced Computing Center (TACC).
They found that in some of the galaxies, the dark matter density decreased steadily from the center. In others, the density held constant. And some galaxies fell in between.
However, when all the galaxies’ distributions were analyzed together, the results showed that on average, the theorists were right. This seems to suggest that the theory behind dark matter in galaxies is correct on the whole, but that “each galaxy develops slightly differently.” The results do “pose more questions, questions about dark matter itself, and how normal matter interacted with dark matter to form the types of galaxies seen today. Possible next steps in this research include getting more telescope observations of these galaxies, both their centers and their extreme outlying regions, to understand the distribution of dark matter within them even better. More theory is also needed to explain the details of why certain galaxies’ dark matter halos deviate from the norm.
University of Texas: Texas Astronomers Unravel 20-Year Dark Matter Mystery with New Computer Models arXiv: Variations in a Universal Density Profile