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NASA’s Roman mission will test competing cosmic acceleration theories

March 22, 2022
in Technology and Engineering
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A team of scientists has predicted the science return from one of NASA’s Nancy Grace Roman Space Telescope’s groundbreaking planned surveys, which will analyze millions of galaxies strewn across space and time. The mission’s enormous, deep panoramas will provide the best opportunity yet to discern between the leading theories about what’s speeding up the universe’s expansion.

Simulated distribution of galaxies at redshifts 9, 8, 5, 3, 2, and 1

Credit: Credits: NASA’s Goddard Space Flight Center/F. Reddy and Z. Zhai, Y. Wang (IPAC) and A. Benson (Carnegie Observatories)

A team of scientists has predicted the science return from one of NASA’s Nancy Grace Roman Space Telescope’s groundbreaking planned surveys, which will analyze millions of galaxies strewn across space and time. The mission’s enormous, deep panoramas will provide the best opportunity yet to discern between the leading theories about what’s speeding up the universe’s expansion.

Roman will explore this mystery using multiple methods, including spectroscopy – the study of the color information in light. This technique will allow scientists to precisely measure how fast the universe expanded in different cosmic eras and trace how the universe has evolved.

“Our study forecasts the science Roman’s spectroscopy survey will enable and shows how various adjustments could optimize its design,” said Yun Wang, a senior research scientist at Caltech/IPAC in Pasadena, California, and the lead author of the study. As the Roman Science Support Center, IPAC will be responsible for the mission’s spectroscopic science data processing, while the Space Telescope Science Institute in Baltimore will be responsible for imaging science data processing, generating catalogs, and support for cosmology data processing pipelines. “While this survey is designed to explore cosmic acceleration, it will also offer clues about many other tantalizing mysteries. It will help us understand the first generation of galaxies, allow us to map dark matter, and even reveal information about structures that are much closer to home, right in our local group of galaxies.”

The Roman Space Telescope, planned for launch by May 2027, will provide such an enormous view of the universe that it will help scientists study cosmic mysteries in an unprecedented way. Each image will contain precise measurements of so many celestial objects that it will enable statistical studies that aren’t practical using telescopes with narrower views.

In current plans, Roman’s spectroscopy survey will cover nearly 2,000 square degrees, or about 5% of the sky, in just over seven months. The team’s results showed that the survey should reveal precise distances for 10 million galaxies from when the universe was between about 3-6 billion years old, since light that reaches the telescope began its journey when the universe was much younger. These measurements will allow astronomers to map the web-like large-scale structure of the cosmos. The survey will also unveil the distances for 2 million galaxies from even earlier in the universe’s history, when it was only between 2-3 billion years old – unexplored territory in large-scale cosmic structure.

The team’s results are published in The Astrophysical Journal.

Reading the Rainbow 

Nearly all the information we receive from space comes from light. Roman will use light to capture images, but it will also study light by breaking it down into individual colors. The detailed wavelength patterns, called spectra, reveal information about the object that emitted the light, including how fast it’s moving away from us. Astronomers call this phenomenon “redshift” because when an object recedes, all of the light waves we receive from it are stretched out and shifted toward redder wavelengths.

In the 1920s, astronomers Georges Lemaître and Edwin Hubble used redshifts to make the startling discovery that, with very few exceptions, galaxies are racing away from us and each other at different speeds depending on their distance. By determining how quickly galaxies are receding from us, carried by the relentless expansion of space, astronomers can find out how far away they are – the more a galaxy’s spectrum is redshifted, the farther away it is.

Roman’s spectroscopy survey will create a 3D map of the universe by measuring accurate distances and positions of millions of galaxies. Learning how galaxy distribution varies with distance, and therefore time, will give us a window into how quickly the universe expanded in different cosmic eras.

This study will also connect galaxy distances with the echoes of sound waves from just after the big bang. These sound waves, called baryon acoustic oscillations (BAO), have grown with time due to the expansion of space and left their imprint on the cosmos by influencing galaxy distribution. For any modern galaxy, we are more likely to find another galaxy about 500 million light-years away than we are to find one slightly nearer or farther.

Looking farther out into the universe, to earlier cosmic times, means that this preferred physical distance between galaxies – the vestige of BAO ripples – decreases. This provides a measurement of the universe’s expansion history. Galaxy redshifts also encode information about their motion due to the gravity of their neighbors, called redshift space distortions, which helps astronomers trace the growth history of large-scale structure. Learning about the way the cosmos has expanded and how structure has grown within it over time will allow scientists to explore the nature of cosmic acceleration and test Einstein’s theory of gravity over the age of the universe.

Dark Energy Versus Modified Gravity

As the universe expands, the gravity of the matter within it should slow that expansion down. Astronomers were surprised to learn that the expansion of the universe is speeding up because it means that something about our picture of the cosmos is either wrong or incomplete. The mystery could be explained by adding a new energy component to the universe, which scientists have dubbed dark energy, or it could indicate that Einstein’s theory of gravity – the general theory of relativity – needs a modification.

Changing the equations that describe something as fundamental as gravity may seem extreme, but it’s been done before. Isaac Newton’s law of gravity couldn’t explain some of the things astronomers observed, such as a small but mysterious motion in Mercury’s orbit.

Astronomers ultimately realized that Einstein’s general theory of relativity perfectly accounted for problems that had surfaced, like Mercury’s orbital shift. Switching from Newton’s description of gravity to Einstein’s involved transforming modern physics by changing the way we view space and time – interconnected, instead of separate and constant.

 

Cosmic acceleration could be a sign that Einstein’s theory of gravity still isn’t quite right. General relativity is extremely well tested on physical scales about the size of our solar system, but less so as we move to larger, cosmological scales. The team simulated Roman’s performance and demonstrated that the mission’s enormous, deep 3D images of the universe will provide one of the best opportunities yet to discern between the leading theories that attempt to explain cosmic acceleration.

“We can look forward to new physics in either case – whether we learn that cosmic acceleration is caused by dark energy or we find that we have to modify Einstein’s theory of gravity,” Wang said. “Roman will test both theories at the same time.”

The Nancy Grace Roman Space Telescope is managed at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, with participation by NASA’s Jet Propulsion Laboratory and Caltech/IPAC in Southern California, the Space Telescope Science Institute in Baltimore, and a science team comprising scientists from various research institutions. The primary industrial partners are Ball Aerospace and Technologies Corporation in Boulder, Colorado; L3Harris Technologies in Melbourne, Florida; and Teledyne Scientific & Imaging in Thousand Oaks, California.



Journal

The Astrophysical Journal

DOI

10.3847/1538-4357/ac4973

Article Title

The High Latitude Spectroscopic Survey on the Nancy Grace Roman Space Telescope

Article Publication Date

22-Mar-2022

Tags: AccelerationCompetingcosmicmissionNASAsromantesttheories
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