Astronomy & Astrophysics 101: Measuring the Age and Size of the Universe – SciTechDaily

Spiral galaxy NGC 4603 containing Cepheids being used for distance measurements. Credit: ESA/Hubble & NASA, J. Maund

The top-ranked scientific justification for building the Hubble Space Telescope was to determine the size and age of the Universe through observations of Cepheid variables in distant galaxies. This scientific goal was so important that it put constraints on the lower limit of the size of Hubbles primary mirror. Cepheids are a special type of variable star with very stable and predictable brightness variations. The period of these variations depends on physical properties of the stars such as their mass and true brightness. This means that astronomers, just by looking at the variability of their light, can find out about the Cepheids physical nature, which then can be used very effectively to determine their distance. For this reason, cosmologists call Cepheids standard candles.

Astronomers have used Hubble to observe Cepheids with extraordinary results. The Cepheids have then been used as stepping-stones to make distance measurements for supernovae, which have, in turn, given a measure for the scale of the Universe. Today we know the age of the Universe to a much higher precision than before Hubble: around 13.7 billion years.

We certainly live in exciting times. Hubble has made enormous progress possible within cosmology. Today we have a much more unified cosmological picture than was possible even five years ago when people were talking of The Cosmology in Crisis. We have seen a dramatic change from misery to glory!

Gustav A. Tammann, Astronomer, University of Basel

Pictured is the supernova of the type Ia star 1994D, in galaxy NGC 4526. The supernova is the bright spot in the lower left corner of the image. Credit: ESA/Hubble

One of Hubbles initial core purposes was to determine the rate of expansion of the Universe, known to astronomers as the Hubble Constant. After eight years of Cepheid observations this work was concluded by finding that the expansion increases by 70 km/second for every 3.26 million light-years you look further out into space.

Hubbles sharp vision means that it can see exploding stars, supernovae that are billions of light years away, and difficult for other telescopes to study. A supernova image from the ground usually blends in with the image of its host galaxy. Hubble can distinguish the light from the two sources and thus measure the supernova directly.

For many years cosmologists have discussed whether the expansion of the Universe would stop in some distant future or continue ever more slowly. From the results of Hubbles supernova studies, it seems clear that the expansion is nowhere near slowing down. In fact, due to some mysterious property of space itself, called dark energy, the expansion is accelerating and will continue forever. This surprising conclusion came from combined measurements of remote supernovae with most of the worlds top-class telescopes, including Hubble. Furthermore, recent supernova results indicate that cosmos did not always accelerate, but began accelerating when the Universe was less than half its current age.

Since Hubbles measurement of the expansion of the Universe, there have been other more precise measurements, such as with the Spitzer Space Telescope. However, these different measurements havent been in agreement, causing a mystery and spawning new theories. New measurements with NASAs Roman Space Telescope or from gravitational waves may help resolve the controversy.

The discovery of the accelerating expansion of the Universe led to three astronomers, Saul Perlmutter, Adam Riess, and Brian Schmidt, being awarded the 2011 Nobel Prize in Physics.

Hubble gave us the distance measurements of the first four supernovae that made us realize something was wrong with our present understanding of the Universe. Even though the definite proof that the Universe is accelerating came later, we could not reconcile our Hubble observations with a Universe where the expansion is slowing down.

Bruno Leibundgut, Astronomer, European Southern Observatory (ESO)

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Astronomy & Astrophysics 101: Measuring the Age and Size of the Universe - SciTechDaily