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Sunday, July 26, 2020

Astrophysicists Construct Most Complete 3D Map of the Universe, Fill Gaps in Cosmological History - SciTechDaily

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An international consortium of scientists has analyzed, as part of a vast program of cosmological surveys, several million galaxies and quasars, thus retracing a more continuous history of the Universe and offering a better understanding of the mechanisms of its expansion. The latest 6 year-long survey called eBOSS was initiated, and led in part, by EPFL astrophysicist Jean-Paul Kneib.

It is the largest 3D map of the Universe produced to date. It is the fruit of a twenty-year collaboration of several hundred scientists from around thirty different institutions around the world, all united within the “Sloan Digital Sky Survey” (SDSS), with data collected from an optical telescope dedicated to the project located in New Mexico, in the United States.

Released today in the form of more than twenty scientific publications, this latest mapping of the night sky is an unprecedented and ambitious astronomical survey from 2014 until 2020. Resulting from the analysis of several millions of galaxies and quasars, this latest survey builds upon existing data as early as 1998 to fill certain gaps in cosmological history and to improve our understanding of the mechanisms underlying the expansion of the Universe.

EPFL (Ecole polytechnique fédérale de Lausanne) is directly involved in this important project. This latest cosmological survey of the SDSS, called “The extended Baryon Oscillation Spectroscopic Survey” (eBOSS), includes more than 100 astrophysicists, of which several are researchers from EPFL. Jean-Paul Kneib, who heads EPFL’s Astrophysics Laboratory (LASTRO), initiated the eBOSS survey and was its principal investigator (PI) for several years.

“In 2012, I launched the eBOSS project with the idea of ​​producing the most complete 3D map of the Universe throughout the lifetime of the Universe, implementing for the first time celestial objects that indicate the distribution of matter in the distant Universe, galaxies that actively form stars and quasars,” reports Jean-Paul Kneib. “It is a great pleasure to see the culmination of this work today. ”

Jean-Paul Kneib

Jean-Paul Kneib. Credit: EPFL

Thanks to the extensive theoretical models describing the Universe after the Big Bang, as well as observation of the Cosmic Microwave Backgound Radiation (CMBR), the infant Universe is relatively well known. Scientists have also explored its expansion history over the most recent few billion years from Supernovae distance measurements and galaxy maps, including those from previous phases of the SDSS. “We know both the ancient history of the Universe and its recent expansion history fairly well, but there’s a troublesome gap in the middle 11 billion years,” says cosmologist Kyle Dawson of the University of Utah, who leads the team announcing today’s results. “Thanks to five years of continuous observations, we have worked to fill in that gap, and we are using that information to provide some of the most substantial advances in cosmology in the last decade.”

“Taken together, detailed analyses of the eBOSS map and the earlier SDSS experiments, we have now provided the most accurate expansion history measurements over the widest-ever range of cosmic time,” says Will Percival of the University of Waterloo, eBOSS’s Survey Scientist. “These studies allow us to connect all these measurements into a complete story of the expansion of the Universe.”

SDSS Observable Universe Map

The SDSS map is shown as a rainbow of colors, located within the observable Universe (the outer sphere, showing fluctuations in the Cosmic Microwave Background).
We are located at the center of this map. The inset for each color-coded section of the map includes an image of a typical galaxy or quasar from that section, and also the signal of the pattern that the eBOSS team measures there. As we look out in distance, we look back in time. So, the location of these signals reveals the expansion rate of the Universe at different times in cosmic history.
Credit: Anand Raichoor (EPFL), Ashley Ross (Ohio State University) and the SDSS Collaboration

The finalized map shows filaments of matter and voids that more precisely define the structure of the Universe since its beginnings, when it was only 380,000 years old. From there, the researchers measured the recurring patterns in the distribution of galaxies, thus identifying several key cosmological parameters, including the density of hypothetical dark matter and energy in the Universe, with a high degree of precision.

To carry out this survey, the teams involved in the eBOSS project looked at different galactic tracers that reveal the mass distribution in the Universe. For the part of the map relating to the Universe six billion years ago, researchers observed the oldest and reddest galaxies. For more distant eras, they concentrated on the youngest galaxies, the blue ones. To go back further, that is to say up to eleven billion years, they used quasars, galaxies whose super-massive black hole is extremely luminous.

Slower expansion?

This map reveals the history of the Universe, and in particular, that the expansion of the Universe began to accelerate at some point and has since continued to do so. This seems to be due to the presence of dark energy, an invisible element that fits naturally into Einstein’s general theory of relativity but whose origin is not yet understood.

When eBOSS observations are compared with studies of the Universe’s early days, discrepancies appear in estimates of the Universe’s expansion rate. The currently accepted expansion rate, called the “Hubble constant,” is 10% slower than the value calculated from the distances between the galaxies closest to us. It is unlikely that this 10% difference is random due to the high precision and wide variety of data in the eBOSS database.

To date, there is no commonly accepted explanation for these disagreements between the different estimations of the speed of expansion, but the fact that a still unknown form of matter or energy from the early Universe could have left traces in our history is an interesting possibility.

For more on this research, including more videos and images, see Largest 3D Map of the Universe Ever Created.

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July 26, 2020 at 07:01PM
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Astrophysicists Construct Most Complete 3D Map of the Universe, Fill Gaps in Cosmological History - SciTechDaily
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