New York City, NY
July 15, 2024
Unraveling Cosmic Mysteries – New Method Proposed for Measuring Universe Expansion

Unraveling Cosmic Mysteries – New Method Proposed for Measuring Universe Expansion

Aug 8, 2023
Universe Astrophysics Shockwaves Art Concept

The researchers from the International Centre for Theoretical Sciences in Bengaluru have proposed a method to measure the universe’s expansion rate using gravitational waves from merging black hole pairs. Utilizing advanced gravitational wave detectors, they plan to examine repeated black hole mergers and the delay between them to calculate the expansion rate without needing exact information about the galaxies or black hole pairs involved.

In 1929, astronomers discovered that galaxies are streaming away from us and each other. They interpreted this observation that the universe is expanding. However, when they measured how fast it is expanding, they got different answers using different methods. The difference continues to be a thorn in their description of the expanding universe.

A potential solution has been proposed by a research team headed by Souvik Jana from the International Centre for Theoretical Sciences in Bengaluru. Their paper, recently published in the Physical Review Letters, has been highlighted as an Editor’s suggestion.

The solution hinges on studying gravitational waves, ripples in spacetime, which astronomers first detected in 2015. The team studied how gravity itself affects gravitational waves.

As pairs of black holes merge into a single black hole in a cosmic dance, they emit gravitational waves. As they reach the Earth, kilometer-lengthed detectors help scientists study the properties of the black hole pairs. Massive galaxies occupying the space between the black holes and the Earth change the paths of these spacetime ripples, resulting in the detectors recording multiple copies of the same waves. Astronomers call this phenomenon gravitational lensing.

“We have been observing the gravitational lensing of light for over a century,” said Parameswaran Ajith, a co-author of the study. “We expect the first observation of lensed gravitational waves in the next few years!”

Cosmography Using Lensed Gravitational Waves

Strong lensing of gravitational waves graphic. Credit: Parameswaran Ajith (ICTS)

In the next two decades, scientists will start running advanced gravitational wave detectors in search of the merging black holes. “Future detectors will be able to see out to much larger distances than the existing ones,” explained Shasvath J. Kapadia, from the Inter-University Centre for Astronomy and Astrophysics in Pune, one of the co-authors of the study. Tejaswi Venumadhav from the University of California at Santa Barbara, another co-author, said they will be able to detect weaker gravitational wave signals that get buried in the noise affecting present detectors.

Astronomers estimate that the advanced detectors will record signals from a few million black hole pairs, each merging to form a mega-black hole. Among these, about 10,000 black hole mergers will appear more than once in the same detector due to gravitational lensing.

The team led by Souvik demonstrated that by counting the number of such repeat black hole mergers and studying the delay between them, they can measure the universe’s expansion rate. As the data from advanced gravitational wave detectors trickle in over the next two decades, their method can potentially measure the universe’s expansion rate accurately.

The team’s proposal, said Souvik, does not require knowing the properties of the individual galaxies which create multiple copies of gravitational waves, the distances to the black hole pairs, or even their exact location in the sky. Instead, it only requires an accurate method of knowing which signals are lensed. Scientists are improving their techniques to identify the repeat signals, adds Shasvath.

Gravitational lensing requires the astronomical source to be far away. The black hole pairs fit this criterion, which can originate a whooping 13.3 billion years ago, barely 500 million years old after the universe’s birth.

Shasvath cautions that their proposed method will be helpful only when the advanced detectors record millions of black hole mergers. Presently, the team is studying how such a future observation will be able to tell apart different models of the universe that cosmologists have proposed.

The models, the team explained, attempt to solve mysteries of the elusive dark matter, a form of matter that does not interact with light. The dark matter hypothesis solves the astronomer’s problem of explaining why galaxies have the observed mass. However, scientists are still unsure of the dark matter’s properties, leading to various dark matter models.

The team’s ongoing research suggests that future observations of lensed gravitational waves will serve as a tool to study the properties of dark matter.

Reference: “Cosmography Using Strongly Lensed Gravitational Waves from Binary Black Holes” by Souvik Jana, Shasvath J. Kapadia, Tejaswi Venumadhav and Parameswaran Ajith, 30 June 2023, Physical Review Letters.
DOI: 10.1103/PhysRevLett.130.261401


Leave a Reply

Your email address will not be published. Required fields are marked *