A team of astrophysicists, cosmologists, and physicists has developed a novel way to compute the Hubble constant using gravitational waves.
For about a century, scientists have known that the Universe is in a state of constant expansion. In honor of the scientists who definitively showed this, this expansion has come to be known as the Hubble Constant .
Today, scientists use two main techniques to measure the rate of expansion: the Cosmic Microwave Background and the Cosmic Distance Ladder. The former relies on redshift measurements of the CMB, the relic radiation left over from the Big Bang, while the latter relies on parallax and redshift measurements using variable stars and supernovae . The only problem is that the two methods don't agree, leading to what is known as the"Hubble Tension." This problem is considered one of the greatest cosmological mysteries facing scientists today. Luckily, new methods are emerging that could help resolve this"tension" and bring order to the Standard Model of Cosmology. In a, a team of astrophysicists, cosmologists, and physicists from the University of Illinois and the University of Chicago has proposed a new method using the tiny ripples in spacetime known as gravitational waves . at the University of Illinois Urbana-Champaign. He was joined by multiple colleagues from the IGC, as well as researchers from theScientists hoping to resolve the Hubble Tension have proposed several solutions, ranging from Early Dark Energy and interactions between Dark Matter and neutrinos to evolving dark-energy dynamics. In recent years, the discovery of gravitational waves has also emerged as a means of resolving the Tension by providing a new way to measure cosmic expansion. Originally predicted by Einstein's Theory of General Relativity, gravitational waves are ripples caused in the fabric of spacetime caused by the merger of massive objects .. Thanks to upgraded instruments and international cooperation, the LIGO-Virgo-KAGRA collaboration has detected more than 300 GW events. In that time, astronomers have found ways to use events to explore cosmological phenomena, including measuring the expansion of the cosmos. In the current research, the team found a way to improve these measurements by leveraging the gravitational-wave background , which is caused by astrophysical collisions that the LVK network is not yet sensitive enough to detect. They call it the"stochastic standard siren" method, since the collisions that make up the gravitational-wave background occur stochastically. Daniel Holz, a UChicago Professor and study co-author, explained in a UIUC press release: It’s not every day that you come up with an entirely new tool for cosmology. We show that by using the background gravitational-wave hum from merging black holes in distant galaxies, we can learn about the age and composition of the universe. This is an exciting and completely new direction, and we look forward to applying our methods to future datasets to help constrain the Hubble constant, as well as other key cosmological quantities. *Artist’s impression of the electromagnetic signal from the merger of two neutron stars. Credit: NSF/LIGO/Sonoma State University/A. Simonnet* As a proof of principle, the team applied their method to current LVK Collaboration data. They found that the non-detection of the GWB provides evidence against slow cosmic expansion rates. They then combined their method with measurements of the Hubble Constant based on individual black hole collisions to obtain a more accurate rate."Because we are observing individual black hole collisions, we can determine the rates of those collisions happening across the Universe," said Cousins."Based on those rates, we expect there to be a lot more events that we can’t observe, which is called the gravitational-wave background." This showed that at lower values of the Hubble constant, the total volume of space within which collisions occur is smaller. This would imply that the density of object collisions is higher, increasing the strength of the GWB signal to the point that current instruments could detect it. “This result is very significant—it’s important to obtain an independent measurement of the Hubble constant to resolve the current Hubble tension," added co-author Nicolás Yunes, the founding director of the Illinois Center for Advanced Studies of the Universe ."Our method is an innovative way to enhance the accuracy of Hubble constant inferences using gravitational waves." With LVK's improved architecture, scientists estimate that the GWB is likely to be detected within the next six years. If and when this happens, the team's method could be used to improve measurements of the Hubble Constant further. Until then, the stochastic siren method could be used to constrain higher values of the Hubble Constant, thereby establishing upper limits on the GWB and allowing scientists to study it before a full detection is made. "This should pave the way for applying this method in the future as we continue to increase the sensitivity, better constrain the gravitational-wave background, and maybe even detect it," says Cousins."By including that information, we expect to get better cosmological results and be closer to resolving the Hubble tension."Matt Williams is a space journalist, science communicator, and author with several published titles and studies. His work is featured in
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