Review: Gravitational Waves






Gravitational Waves: How Einstein’s Spacetime Ripples Reveal the Secrets of the Universe
by Brian Clegg
Icon Books Ltd., 2018
ebook, 176 pp., illus.
US$6.47

For once, the term “multimessenger astronomy” didn’t refer to gravitational waves. Last week, astronomers used that term, which has become a buzzword in the field in the last few years, to describe a neutrino detection at a facility at the South Pole that, combined with other ground-based and space-based observatories operating in the electromagnetic spectrum, linked that detection to an active galaxy called a “blazar” billions of light-years away. Astronomers conclude that such galaxies may be the source of high-energy cosmic rays.

However, more often the phrase multimessenger astronomy has referred to the combination of electromagnetic observations—from radio through the visible to gamma-rays—with gravitational waves, particularly after the first confirmed direct detection of them announced more than two years ago and subsequent efforts to link those detections with other observations to track down their sources.

Gravitational waves have become a popular topic in the last few years, thanks to the detections of them by the Laser Interferometer Gravitational-Wave Observatory (LIGO) after decades of work. And while much has been written about that discovery and the science of gravitational waves, it can be difficult to get a concise overview.

Gravitational Waves by British science writer Brian Clegg attempts to do just that. In less than 200 pages, he offers an overview of what gravitational waves are, past efforts to detect them, and the LIGO discovery. It’s familiar reading for those who have followed the field in the last few years, but it makes for a good introduction at a level accessible for general readers rather than scientists.

There’s not much new in the book, and Clegg relies on other published accounts of the LIGO discovery and research in the field rather than doing much in the way of his own interviews or reporting. That’s fine so long as you’re a beginner to the subject and are looking for a broad overview, rather that someone already familiar with the topic and looking for new insights or angles.

Clegg, though, offers a little bit of opinion on the topic, particularly in the final chapter. He does a little soul-searching to ask the question of whether LIGO, whose overall cost exceeds $1 billion, is worth the expense. That includes some criticism of the International Space Station, which arguably was saved 25 years ago at the expense of the Superconducting Super Collider. “Instead of spending significantly less than the Large Hadron Collider for an arguably better piece of equipment, ten times the cost of the SSC has now been spent on the Space Station with no significant scientific outcomes whatsoever,” he argues. (The ISS, of course, has never been exclusively or primarily a science project, unlike the SSC and LIGO.)

He concludes it’s worthwhile to spend funds on projects like LIGO even if there is no payoff beyond science. “By detecting gravitational waves and pushing back the boundaries of our understanding, we confirm the strength of the human spirit,” he writes at the book’s conclusion. That is, perhaps, a very different kind of multimessenger astronomy.


Source