Dark matter is a mysterious form of matter believed to act as the invisible glue that holds galaxies together. Now, NASA scientists have combined fresh data from the James Webb Space Telescope (JWST) with earlier observations to produce the most detailed map of dark matter ever created. The new map reveals the complex and far-reaching influence dark matter has on the structure of the universe.
The research, published in Nature Astronomy on January 26, illustrates how dark matter overlaps with ordinary matter and plays a pivotal role in shaping galaxies and massive galaxy clusters. The study was a collaborative effort involving Durham University, NASAās Jet Propulsion Laboratory (JPL), and Switzerlandās Ćcole Polytechnique FĆ©dĆ©rale de Lausanne (EPFL).
The image accompanying the study captures nearly 800,000 galaxies, overlaid with a dark matter map shown in blue. According to NASA, researchers were able to trace this otherwise invisible substance by analyzing how its gravitational pull distorts and bends light from distant galaxies ā a phenomenon known as gravitational lensing.
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āThis is the largest dark matter map weāve ever created using Webb, and itās twice as sharp as any dark matter map produced by other observatories,ā said Diana Scognamiglio, the studyās lead author, as quoted by NASA. Scognamiglio is an astrophysicist at NASAās JPL in Southern California.
āPreviously, we were working with a blurry picture of dark matter,ā she added. āNow weāre seeing the invisible scaffolding of the universe in stunning detail, thanks to Webbās exceptional resolution.ā
The map reveals a vast, web-like structure formed by dark matter, with dense concentrations surrounding galaxy clusters and thinner filaments stretching between them. Scientists believe that dark matterās gravitational force pulled gas and dust toward these regions, creating the conditions necessary for galaxies to form and evolve.
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āWherever we observe a massive cluster made up of thousands of galaxies, we also find an equally large amount of dark matter in the same location,ā said Richard Massey, an astrophysicist at Durham University in the United Kingdom. āAnd when we see a narrow bridge of normal matter linking two clusters, we also detect a corresponding bridge of dark matter.ā
āItās not just that they share similar shapes,ā Massey added. āThis map shows that dark matter and ordinary matter have always occupied the same regions. They grew together over cosmic time.ā
While dark matter remains one of the greatest mysteries in modern physics, its influence on the universe is unmistakable. This new map provides valuable insight into how the universe evolved, tracing dark matterās role back to periods when galaxies were forming at their fastest rate.
The findings further strengthen the case for dark matter as a fundamental component of the universeās structure. āThis map offers stronger evidence that without dark matter, our galaxy might not contain the elements that ultimately allowed life to exist,ā said Rhodes.
āDark matter isnāt something we encounter in everyday life on Earth ā or even within our solar system ā but it has undeniably shaped the universe we live in.ā
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