Credit: SciTechDaily.comLowest-ever frequency gravitational waves found in pulsar data.A group of physicists has established an approach to discover gravity waves with such low frequencies that they might open the tricks behind the early phases of mergers in between supermassive black holes, the heaviest objects in the universe.The method can identify gravitational waves that oscillate simply when every thousand years, 100 times slower than any previously measured gravitational waves.”For referral,” Dror discussed, “the frequency of sound waves produced by an alligator roar is about 100 billion times greater than this frequency– these are extremely low-pitched waves. By studying existing pulsar data, Dror was able to search for gravitational waves with lower frequencies than ever in the past, increasing our “hearing range” to frequencies as low as 10 picohertz, 100 times lower than previous efforts that detected nanohertz-level waves.Future Directions and SimulationsWhile gravitational waves with frequencies around a nanohertz have been discovered before, not much is known about their origin.
Credit: SciTechDaily.comLowest-ever frequency gravitational waves found in pulsar data.A team of physicists has developed a method to spot gravity waves with such low frequencies that they might unlock the secrets behind the early phases of mergers between supermassive black holes, the heaviest objects in the universe.The approach can spot gravitational waves that oscillate simply when every thousand years, 100 times slower than any formerly determined gravitational waves.”For recommendation,” Dror explained, “the frequency of sound waves developed by an alligator roar is about 100 billion times higher than this frequency– these are very low-pitched waves. By studying existing pulsar data, Dror was able to search for gravitational waves with lower frequencies than ever before, increasing our “hearing range” to frequencies as low as 10 picohertz, 100 times lower than previous efforts that found nanohertz-level waves.Future Directions and SimulationsWhile gravitational waves with frequencies around a nanohertz have actually been identified before, not much is understood about their origin.