A team of physicists has developed a method to detect gravity waves with such low frequencies that they could unlock the secrets behind the early phases of mergers between supermassive black holes, the heaviest objects in the universe.
“These are waves reaching us from the farthest corners of the universe, capable of affecting how light travels,” said JEFF DROR, Ph.D., an assistant professor of physics at the University of Florida and co-author of the new study. “Studying these waves from the early universe will help us build a complete picture of our cosmic history, analogous to previous discoveries of the cosmic microwave background.”
Dror and his co-author, University of California, Santa Cruz postdoctoral researcher William DeRocco, published their findings in Physical Review Letters.
Gravitational waves are akin to ripples in space. Like sound waves or waves on the ocean, gravitational waves vary in both frequency and amplitude, information that offers insights into their origin and age. Gravitational waves that reach us can oscillate at extremely low frequencies, much lower than those of sound waves detectable to the human ear. Some of the lowest frequencies detected in the past were as low as one nanohertz.
“For reference,” Dror explained, “the frequency of sound waves created by an alligator roar is about 100 billion times higher than this frequency—these are very low-pitched waves.”
2024-03-09 12:41:03
Post from phys.org
