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Astronomers detect earliest evidence yet of hydrogen in the universe
by Staff Writers
Boston MA (SPX) Mar 01, 2018

Six decades of cosmology
Washington DC (SPX) Mar 01, 2018 - "Cosmologists are often wrong but never in doubt," Russian physicist Lev Landau once said. In the early days, astronomers began by observing and modelling stars in different stages of evolution and comparing their findings with theoretical predictions.

Stellar modelling uses well-tested physics, with concepts such as hydrostatic equilibrium, law of gravitation, thermodynamics, nuclear reactions etc. Yet in contrast, cosmology is based on a large number of untested physical assumptions, like nonbaryonic dark matter and dark energy whose physics has no proven link with the rest of physics.

In a recent paper published in EPJ H, Jayant V. Narlikar, professor emeritus at the Inter-University Centre for Astronomy and Astrophysics in Pune, India, shares his personal reminiscences of the evolution of the subject of cosmology over six decades. He tells of the increase in our confidence in the standard model of cosmology to the extent that it has become a dogma.

Narlikar first describes cosmological research in the 60s and 70s and explains how it covered key areas, including the Wheeler-Feynman theory relating the local electromagnetic arrow of time to the cosmological one, singularity in quantum cosmology and the observational tests of discrete source populations in different models of the expanding universe.

In the subsequent tests to validate theories, one key discovery - cosmic microwave background radiation (CMBR) - in the mid-sixties changed physicists' perspective of the big bang.

However, today's cosmologists appear to be caught in a range of speculations in their attempts to show that the big bang model is correct as opposed to any alternative model.

The author discusses how the well-accepted standard model, the so-called standard big bang cosmology (SBBC) does not have independent observational support for its basic assumptions like the non-baryonic dark matter, inflation and dark energy. Nor does it have an established theoretical base.

The German physicist Max Born said many years ago: "Modern cosmology has strayed from the sound empirical road to a wilderness where statements can be made without fear of observational check..." Narlikar feels that those comments apply very well to the present state of cosmology.

J. V.Narlikar (2017), The Evolution of Modern Cosmology As Seen through a Personal Walk Across Six Decades, European Physical Journal H; DOI 10.1140/epjh/e2017-80048-5

In a study published in the journal Nature, astronomers from MIT and Arizona State University report that a table-sized radio antenna in a remote region of western Australia has picked up faint signals of hydrogen gas from the primordial universe.

The scientists have traced the signals to just 180 million years after the Big Bang, making the detection the earliest evidence of hydrogen yet observed.

They also determined that the gas was in a state that would have been possible only in the presence of the very first stars. These stars, blinking on for the first time in a universe that was previously devoid of light, emitted ultraviolet radiation that interacted with the surrounding hydrogen gas. As a result, hydrogen atoms across the universe began to absorb background radiation - a pivotal change that the scientists were able to detect in the form of radio waves.

The findings provide evidence that the first stars may have started turning on around 180 million years after the Big Bang.

"This is the first real signal that stars are starting to form, and starting to affect the medium around them," says study co-author Alan Rogers, a scientist at MIT's Haystack Observatory. "What's happening in this period is that some of the radiation from the very first stars is starting to allow hydrogen to be seen. It's causing hydrogen to start absorbing the background radiation, so you start seeing it in silhouette, at particular radio frequencies."

Certain characteristics in the detected radio waves also suggest that hydrogen gas, and the universe as a whole, must have been twice as cold as scientists previously estimated, with a temperature of about 3 kelvins, or -454 degrees Fahrenheit. Rogers and his colleagues are unsure precisely why the early universe was so much colder, but some researchers have suggested that interactions with dark matter may have played some role.

"These results require some changes in our current understanding of the early evolution of the universe," says Colin Lonsdale, director of Haystack Observatory. "It would affect cosmological models and require theorists to put their thinking caps back on to figure out how that would happen."

Rogers' co-authors are lead author Judd Bowman of Arizona State University (ASU), along with Thomas Mozdzen, Nivedita Mahesh, and Raul Monsalve, from the University of Colorado.

Turning on, tuning in
The scientists detected the primordial hydrogen gas using EDGES (Experiment to Detect Global EoR Signature), a small ground-based radio antenna located in western Australia, and funded by the National Science Foundation.

The antennas and portions of the receiver were designed and constructed by Rogers and the Haystack Observatory team; Bowman, Monsalve, and the ASU team added an automated antenna reflection measurement system to the receiver, outfitted a control hut with the electronics, constructed the ground plane, and conducted the field work for the project. Australia's Commonwealth Scientific and Industrial Research Organization provided on-site infrastructure for the EDGES project.

The current version of EDGES is the result of years of design iteration and instrument calibration in order to reach the levels of precision necessary for successfully achieving an extremely difficult measurement.

The instrument was originally designed to pick up radio waves emitted from a time in the universe's history known as the Epoch of Reionization, or EoR. During this period, it's thought that the first luminous sources, such as stars, quasars, and galaxies, appeared in the universe, causing the previously neutral intergalactic medium, made mostly of hydrogen gas, to become ionized.

Prior to the appearance of the first stars, the universe was shrouded in darkness, and hydrogen, its most abundant element, was virtually invisible, embodying an energy state that was indistinguishable from the surrounding cosmic background radiation.

Scientists believe that when the first stars turned on, they provided ultraviolet radiation that caused changes to the hydrogen atoms' distribution of energy states. These changes induced hydrogen's single electron to spin in alignment or opposite to the spin of its proton, causing hydrogen as a whole to "decouple" from the background radiation. As a result, hydrogen gas began to either emit or absorb that radiation, at a characteristic wavelength of 21 centimeters, equivalent to a frequency of 1,420 megahertz. As the universe expanded over time, this radiation became "red-shifted" to lower frequencies. By the time this 21-centimeter radiation reached present-day Earth, it landed somewhere in the range of 100 megahertz.

Rogers and his colleagues have been using EDGES to try to detect hydrogen that existed during the very early evolution of the universe, in order to pinpoint when the first stars turned on.

"There is a great technical challenge to making this detection," says Peter Kurczynski, program director for Advanced Technologies and Instrumentation, in the Division of Astronomical Sciences at the National Science Foundation, which has provided funding for the project over the past several years. "Sources of noise can be a thousand times brighter than the signal they are looking for. It is like being in the middle of a hurricane and trying to hear the flap of a hummingbird's wing."

The instrument, about the size of a small table, sits in a remote region of western Australia where there are very little humanmade radio signals to interfere with incoming radio waves from the distant universe. The antenna detects radio waves from the entire sky, and the researchers had originally tuned it to listen in at a frequency range of 100 to 200 megahertz.

A switch hit
However, when the researchers looked within this range, they initially failed to pick up much of any signal. They realized that theoretical models had predicted that primordial hydrogen should give off emissions within this range if the gas was hotter than the surrounding medium. But what if the gas was in fact colder? Models predict that the hydrogen should then absorb radiation more strongly in the 50 to 100 megahertz frequency range.

"As soon as we switched our system to this lower range, we started seeing things that we felt might be a real signature," Rogers says.

Specifically, the researchers observed a flattened absorption profile, or a dip in the radio waves, at around 78 megahertz.

"We see this dip most strongly at about 78 megahertz, and that frequency corresponds to roughly 180 million years after the Big Bang," Rogers says. "In terms of a direct detection of a signal from the hydrogen gas itself, this has got to be the earliest."

The dip in radio waves was stronger and deeper than theoretical models predicted, suggesting that the hydrogen gas at the time was colder than previously thought. The radio waves' profile also matches theoretical predictions of what would be produced if hydrogen were indeed influenced by the first stars.

"The signature of this absorption feature is uniquely associated with the first stars," Lonsdale says. "Those stars are the most plausible source of radiation that would produce this signal."

"It is unlikely that we'll be able to see any earlier into the history of stars in our lifetimes," lead author Bowman of ASU says. "This project shows that a promising new technique can work and has paved the way for decades of new astrophysical discoveries."

The researchers say this new detection lifts the curtain on a previously obscure phase in the evolution of the universe.

"This is exciting because it is the first look into a particularly important period in the universe, when the first stars and galaxies were beginning to form," Lonsdale says. "This is the first time anybody's had any direct observational data from that epoch."


Related Links
Massachusetts Institute of Technology
Understanding Time and Space


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Irvine, CA (SPX) Feb 07, 2018
An international team of astronomers has determined that Centaurus A, a massive elliptical galaxy 13 million light-years from Earth, is accompanied by a number of dwarf satellite galaxies orbiting the main body in a narrow disk. In a paper published in Science, the researchers note that this is the first time such a galactic arrangement has been observed outside the Local Group, home to the Milky Way. "The significance of this finding is that it calls into question the validity of certain cosmolog ... read more

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