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A New Window on the Universe
by Staff Writers
Santa Barbara CA (SPX) Dec 28, 2017


The blue regions show the localization by the two LIGO detectors, and the much smaller white region includes the Virgo network of detectors.

Two years ago, scientists from the Laser Interferometer Gravitational-Wave Observatory (LIGO) detected gravitational waves for the first time, proving Einstein's theory of relativity and his prediction of their existence. The waves were triggered by two black holes colliding.

On Aug. 17, 2017, LIGO and the French-Italian Virgo detector observed a completely new class of gravitational-wave signal: a binary neutron star merger. This merger and its afterglow were studied by telescopes spanning the entire electromagnetic spectrum from gamma rays to radio waves.

Of fundamental interest to both physicists and astronomers, gravitational-wave observations have ushered in a new era of science. In fact, so many scientific papers about the neutron star merger were published in one day that researchers created an online index to keep track of them.

Now, less than two months after that first detection of colliding neutron stars, UC Santa Barbara's Kavli Institute for Theoretical Physics (KITP) convened a rapid-response program for scientists from around the world, directly supported by the Kavli Foundation. More than 75 physicists and astronomers discussed the astrophysics of the neutron star merger and listened to dozens of presentations that delved into the details of this most recent game-changing event.

"The intent of 'GW170817: The First Double Neutron Star Merger' is to broaden awareness of the results produced by the vast collaboration that made these exciting discoveries," said KITP director Lars Bildsten said.

"KITP provides a place for interested scientists not only to take in the vast amount of data generated by the latest event but also to push interpretations of that data."

The August gravitational-wave signal produced the first distance measurement to a nearby galaxy from the merger of two neutron stars and explored the equation of state of matter at supernuclear densities. Other areas of study also emerged from the profusion of gravitational-wave and electromagnetic data, including the formation of heavy elements as well as the gamma ray burst and other electromagnetic signals that followed the neutron star merger.

The cosmic origin of elements heavier than iron has been the subject of much debate. Although theoretical models show that matter expelled in a neutron star merger can form into gold and platinum in a process known as rapid neutron capture (r-process) nucleosynthesis, this latest event provides solid direct observation.

"For years, people have been trying to study how the heaviest elements were formed by looking at trace fossil remnants of those elements in the Sun or in meteorites," explained UC Berkeley astrophysicist Daniel Kasen, a coordinator of the KITP program.

"Finally, with this event we had the pure sample of heavy elements ejected from the neutron star merger and we were able to probe it directly, observationally, by looking at the light from the radioactive glow of those heavy elements."

For a number of years, physicists and astronomers - many of whom attended a longer KITP program on a similar topic in 2012 - have been modeling what a double neutron star merger would look like. It turns out that many models of these extremely complicated phenomena were uncannily accurate.

"The gravitational waves told us that these were neutron stars and the electromagnetic observations told us about the spectrum of the radioactive decay that produce r-process elements," said Duncan Brown, the Charles Brightman Endowed Professor of Physics at Syracuse University and lead coordinator of the KITP rapid-response program.

"You put those two together and they complete our knowledge of the origin of the periodic table."

Another hot topic of the program was the electromagnetic counterpart to the neutron star merger. The gamma ray burst raced the gravitational waves 130 million light-years through the universe to be observed on Earth only two seconds apart. This demonstrated that neutron star mergers are the long-sought origin of gamma ray bursts. It also showed that to extremely high accuracy the speed of gravity and the speed of light are the same, which, according to Brown, rules out a large class of modified theories of gravity.

"What has been surprising to me are the discussions of the possible gamma ray burst emission mechanisms," Brown said.

"In gravitational-wave astronomy, the theory has been 50 years ahead of the observations, whereas the electromagnetic side is the other way around; the observations are 50 years ahead of the theory. It's going to be interesting to see how this evolves."

Physicists and astronomers will have another chance to explore gravitational-wave science in a future KITP program slated for 2019.

"The New Era of Gravitational-Wave Physics and Astrophysics" will bring together a broad group of experts to discuss the astrophysics and fundamental physics that can be learned from the observations available at that time, which hopefully will be considerable.

LIGO and Virgo are updating their instrumentation with the hope that when they come back online in fall 2018 with increased sensitivity, their efforts will yield additional observations of gravitational-wave signals, perhaps from other sources.

"They won't all be the same in masses or spins and maybe we'll see a black hole and a neutron star collide into each other," Brown said.

"This is really just the beginning of a global effort to use these collisions to study fundamental physics, astrophysics and stellar evolution."

PHYSICS NEWS
Sierras lost water weight, grew taller during drought
Pasadena CA (JPL) Dec 18, 2017
Loss of water from the rocks of California's Sierra Nevada caused the mountain range to rise nearly an inch (24 millimeters) in height during the drought years from October 2011 to October 2015, a new NASA study finds. In the two following years of more abundant snow and rainfall, the mountains have regained about half as much water in the rock as they had lost in the preceding drought and ... read more

Related Links
University of California, Santa Barbara
The Physics of Time and Space


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