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A Pitt astronomer is helping assemble the biggest-ever 3D map of the universe

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  • Technology & Science
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  • Kenneth P. Dietrich School of Arts and Sciences

For the next five years, a telescope in Arizona is slated to peer across the universe, creating a massive map of galaxies in the hopes of cracking some of the universe鈥檚 deepest mysteries. Just six months in, the team announced on Jan. 13, the project has already accumulated the 鈥 and it鈥檚 adding another million to that map every month.

The Dark Energy Spectroscopic Instrument (DESI) is an inter91porn视频al collaboration of hundreds of scientists led by the Lawrence Berkeley National Laboratory and funded primarily by the U.S. Department of Energy鈥檚 Office of Science.

鈥淲e鈥檙e already outstripping all previous maps using galaxies, even with less than a year鈥檚 data,鈥 said Department of Physics and Astronomy Professor in the Kenneth P. Dietrich School of Arts and Sciences. 鈥淭his new eye on the universe is now open.鈥

If you want to map the universe鈥檚 galaxies, you have to first figure out where to look. That鈥檚 where Newman comes in. Using data from hundreds of nights of observations from telescopes in Chile and Arizona and another in orbit, Newman and his students spent eight years assembling massive lists of galaxies with the right properties.

鈥淚t鈥檚 about figuring out which ones are far enough away to be interesting, but bright enough that we can actually get the measurements we need to make the maps,鈥 Newman said.

DESI can follow up on each observation and gather a detailed snapshot of the galaxy鈥檚 color spectrum 鈥 information that tells researchers the galaxy鈥檚 distance from Earth. The result is to bring the map of more than a third of the sky into far sharper focus.

Mapping out these strings of galaxies, like veins of cosmic ore, will help researchers get at key questions behind the mysteries of dark matter. That鈥檚 because dark matter pulls in the gas around it, creating concentrations of mass that form galaxies.

鈥淲hen you see a galaxy, there鈥檚 five times as much dark matter there 鈥 really, this dark matter is running the show, even though we can鈥檛 see it,鈥 said Newman. 鈥淲e make three dimensional maps of the universe using these galaxies to show us where this underlying web of dark matter is located.鈥

And this new view of the current universe will also help researchers understand its past, giving them insight into the dark energy that鈥檚 driving the universe鈥檚 accelerating expansion.

The key to creating these maps is a marriage of old and new: a half-a-century-old telescope at the Kitt Peak National Observatory in Arizona retrofitted with a tremendously complicated new apparatus consisting of .

鈥淒ESI has completely taken over one of the largest telescopes in the continental U.S.,鈥 Newman said. 鈥淵ou take that older telescope and put a state-of-the-art instrument on it, and now it can do things that no other telescope on Earth can do.鈥

Each robot, equipped with an optical fiber, can rotate and move to precisely align with a target. That allows the telescope to collect detailed information about the position of distant galaxies at a rate that was previously impossible. So far, it鈥檚 up to more than seven and a half million, and it鈥檒l eventually map almost five times that many.

鈥淲e鈥檙e really just getting a taste of what the data is going to look like, but we can already see the signals we鈥檙e looking for,鈥 Newman said. He鈥檚 confident that the project will give scientists a clearer understanding of the properties of dark energy. Whether the project can help scientists weigh in on deeper questions like the validity of Einstein鈥檚 theory of relativity will take some more time to tell.

With the targets for DESI selected, Newman has set the project up for success. But he鈥檚 already got his eye on what comes next, whether that鈥檚 extending maps back closer to the Big Bang or making more detailed maps of the near universe.

鈥淵ou don鈥檛 want to have this thing in mothballs and not making new contributions, because it鈥檚 a really unique resource,鈥 Newman said. 鈥淔our years from now we鈥檒l have completed our mission, and we鈥檒l still have a $75 million instrument that can do things that nothing else can.鈥

Photo credit: KPNO/NOIRLab/NSF/AURA/P. Marenfeld

The DESI collaboration is honored to be permitted to conduct scientific research on Iolkam Du鈥檃g (Kitt Peak), a mountain with particular significance to the Tohono O鈥檕dham Nation.