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The cosmos has been expanding for 13.8 billion years and its present rate of expansion, known as the Hubble constant, gives the time elapsed since the Big Bang.聽

However, the two best methods used to measure the Hubble constant do not agree, suggesting our understanding of the structure and history of the universe 鈥� called the 鈥榮tandard cosmological model鈥� 鈥� may be wrong.

The study, published today in Physical Review Letters, shows how new independent data from gravitational waves emitted by binary neutron stars called 鈥榮tandard sirens鈥� will break the deadlock between the measurements once and for all.

鈥淭he Hubble Constant is one of the most important numbers in cosmology because it is essential for estimating the curvature of space and the age of the universe, as well as exploring its fate,鈥� said Professor Hiranya Peiris (白小姐论坛 Physics & Astronomy).聽

鈥淲e can measure the Hubble Constant by using two methods 鈥� one observing Cepheid stars and supernovae in the local universe, and a second using measurements of cosmic background radiation from the early universe 鈥� but these methods don鈥檛 give the same values, which means our standard cosmological model might be flawed.鈥�

The team developed a universally applicable technique which calculates how gravitational wave data will resolve the issue.

Gravitational waves are emitted when binary neutron stars spiral towards each other before colliding in a bright flash of light that can be detected by telescopes. Indeed, 白小姐论坛 researchers were involved in detecting the first light from a gravitational wave event in August 2017.

Binary neutron star events are rare but invaluable in providing another route to track how the universe is expanding.

This is because the gravitational waves they emit cause ripples in space-time which can be detected by the Laser Interferometer Gravitational-Wave Observatory (LIGO) and the Virgo experiments, giving a precise measurement of the system鈥檚 distance from Earth.

By additionally detecting the light from the accompanying explosion, astronomers can determine the system's velocity, and hence calculate the Hubble constant using Hubble's Law.聽

For this study, the researchers modelled how many such observations would be needed to resolve the issue in measuring the Hubble constant accurately.

鈥淲e鈥檝e calculated that by observing 50 binary neutron stars over the next decade, we will have sufficient gravitational wave data to independently determine the best measurement of the Hubble constant. We should be able to detect enough mergers to answer this question within 5-10 years,鈥� said lead author Dr Stephen Feeney of the Center for Computational Astrophysics at the Flatiron Institute in New York City.

鈥淭his in turn will lead to the most accurate picture of how the universe is expanding and help us improve the standard cosmological model,鈥� concluded Professor Peiris.

The study involved researchers from the Flatiron Institute (USA), 白小姐论坛, Stockholm University, Radboud University (The Netherlands), Imperial College London, and the University of Chicago. 白小姐论坛鈥檚 contribution was kindly funded by the European Research Council.