{"id":32989,"date":"2022-06-13T08:34:40","date_gmt":"2022-06-13T08:34:40","guid":{"rendered":"https:\/\/www.skyatnightmagazine.com\/?p=109264"},"modified":"2022-06-13T08:50:22","modified_gmt":"2022-06-13T08:50:22","slug":"hubble-space-telescope-refines-the-universes-expansion-rate","status":"publish","type":"rss_feed","link":"https:\/\/c01.purpledshub.com\/bbcskyatnight\/rss_feed\/hubble-space-telescope-refines-the-universes-expansion-rate\/","title":{"rendered":"Hubble Space Telescope refines the Universe\u2019s expansion rate"},"content":{"rendered":"

<\/p>

By Ezzy Pearson\n \t\t<\/p>

Published: Monday, 13 June 2022 at 12:00 am<\/p>

\n\n

Using over 30 <\/span>years of observations, the Hubble Space Telescope<\/a> has helped to create the most precise measure of the expansion of the Universe<\/a>, known as the Hubble constant.<\/p>\n

The new value of the Hubble constant as 73km\/sec\/Mpc (kilometres per second per megaparsec) is now accurate to within 1%, and means it would take the Universe 10 billion years to double in size.<\/p>\n

\u201cThe Hubble constant is a very special number. It can be used to thread a needle from the past to the present for an end-to-end test of our understanding of the Universe,\u201d says Licia Verde, from the University of Barcelona, who took part in the study.<\/p>\n

\"""\"<\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/picture><\/div>
These 36 galaxies imaged by Hubble play host to both Cepheid variables and supernovae used to measure the Universe\u2019s expansion. Credit: NASA, ESA, Adam G. Riess (STScI, JHU)<\/span><\/figcaption><\/div>\n

Astronomers have long been plagued by a serious issue when measuring the expansion rate of our Universe \u2013 it changes depending on whether you measure it with local objects, like supernovae in nearby galaxies<\/a>, or the cosmic microwave background<\/a> (CMB), relic radiation from the very early Universe.<\/p>\n

Both measurements have been taken many different times by different teams, but have remained stubbornly mismatched.<\/p>\n

The distant measurement from the CMB was initially far more precise, so to bridge the gap in our understanding a team of astronomers used Hubble data of supernovae<\/a> to measure the nearby value to the same accuracy.<\/p>\n

As suitable supernova only occur roughly once a year, it has taken Hubble\u2019s entire lifespan so far to build up a catalogue of 42 examples.<\/p>\n

\u201cThis is likely Hubble\u2019s magnum opus, because it would take another 30 years of Hubble\u2019s life to even double this sample size,\u201d says Adam Riess from the Space Telescope Science Institute, who lead the study.<\/p>\n

Hubble constant: are we missing something?<\/strong><\/h2>\n
\"""\"<\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/source><\/picture><\/div>
A snapshot of the Cosmic Microwave Background \u2013 heat left over from the Big Bang \u2013 when the Universe was just 380,000 years old. Credit: ESA and the Planck Collaboration<\/span><\/figcaption><\/div>\n

This new result does nothing to relieve what\u2019s politely called the \u2018tension\u2019 between different methods of determining the expansion speed of the Universe. And in fact, it makes the disagreement worse.<\/p>\n

After many years of scrutiny, it seems unlikely that cosmologists on either side of the divide have made a mistake.<\/p>\n

Instead, we must be missing something.<\/p>\n

The fun solution is to change our cosmological model, invoking new physics. More likely, our understanding of the CMB, or more likely of how supernovae work, has something missing.<\/p>\n

While theorists wrestle with the problem, new ground-based surveys like that planned by the Vera Rubin Observatory, as well as ESA\u2019s Euclid mission, are on the way.<\/p>\n

The scientists behind them will be delighted to have Hubble leave them this puzzle to poke at.<\/p>\n

This article originally appeared in the July 2022 issue of <\/strong><\/em>BBC Sky at Night Magazine<\/strong>.<\/strong><\/em><\/p><\/body><\/html>\n

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