Institute of Astronomy

Astronomy News

Hovering happy face smiles down on us from space

10 February 2015 - 2:31pm

It's not the Man in the Moon. A smiley face seen in deep space is the work of a cosmic quirk

Doomed stars found at nebula's heart

9 February 2015 - 7:44pm

At the centre of a mysterious nebula, astronomers discover two stars locked in such a tight orbit that they will eventually merge and explode.

Stellar Partnership Doomed to End in Catastrophe

9 February 2015 - 4:14pm
Astronomers using ESO facilities in combination with telescopes in the Canary Islands have identified two surprisingly massive stars at the heart of the planetary nebula Henize 2-428. As they orbit each other the two stars are expected to slowly get closer and closer, and when they merge, about 700 million years from now, they will contain enough material to ignite a vast supernova explosion. The results will appear online in the journal Nature on 9 February 2015.

VIDEO: Nasa reveals far side of the Moon

9 February 2015 - 12:54pm

Using nearly five-years worth of mapping data from the Lunar Reconnaissance Orbiter, NASA has to provided a view of the moon from the side the cannot be seen from earth.

VIDEO: New satellite warns of solar storms

7 February 2015 - 9:17am

A new deep space satellite will give quicker and more accurate notice about approaching solar storms.

Hubble Captures Rare Triple-Moon Conjunction

6 February 2015 - 8:03pm
NASA's Hubble Space Telescope has captured the rare occurrence of three of Jupiter's largest moons racing across the banded face of the gas-giant planet: Europa, Callisto, and Io.

Pluto's evaporating ice leaves it with a blank face

6 February 2015 - 7:06pm

Astronomers hoped Pluto's craters would hold a record of impacts from its neighbours, which are too small to see – a new study dashes those hopes

First stars get 150 million years younger overnight

5 February 2015 - 6:44pm
The Planck space telescope's newest map shows that the first stars formed later than previously believed, extending an era known as the cosmic dark ages

Ceres gets bigger in the viewfinder

5 February 2015 - 6:41pm

The American space agency's (Nasa) Dawn satellite returns its latest images of Ceres as it approaches orbit insertion on 6 March.

Planck reveals first stars were born late

5 February 2015 - 5:48pm

New maps of ‘polarised’ light in the young Universe have revealed that the first stars formed 100 million years later than earlier estimates. The new images of cosmic background radiation, based on data released today from the European Space Agency’s Planck satellite, have shown that the process of reionisation, which ended the ‘Dark Ages’ as the earliest stars formed, started 550 million years after the Big Bang.

The history of our Universe is a 13.8 billion-year tale that scientists endeavour to read by studying the planets, asteroids, comets and other objects in our Solar System, and gathering light emitted by distant stars, galaxies and the matter spread between them.

A major source of information used to piece together this story is the Cosmic Microwave Background, or CMB, the fossil light resulting from a time when the Universe was hot and dense, only 380,000 years after the Big Bang.

Thanks to the expansion of the Universe, we see this light today covering the whole sky at microwave wavelengths.

Between 2009 and 2013, the Planck satellite surveyed the sky to study this ancient light in unprecedented detail. Tiny differences in the background’s temperature trace regions of slightly different density in the early cosmos, representing the seeds of all future structure, the stars and galaxies of today.

Scientists from the Planck collaboration have published the results from the analysis of these data in a large number of scientific papers over the past two years, confirming the standard cosmological picture of our Universe with ever greater accuracy.

The imaging is based on data from the Planck satellite, and was developed by the Planck collaboration, which includes the Cambridge Planck Analysis Centre at the University's Kavli Institute for Cosmology, Imperial College London and the University of Oxford at the London Planck Analysis Centre.

“The CMB carries additional clues about our cosmic history that are encoded in its ‘polarisation’,” explains Jan Tauber, ESA’s Planck project scientist. “Planck has measured this signal for the first time at high resolution over the entire sky, producing the unique maps released today.”

Light is polarised when it vibrates in a preferred direction, something that may arise as a result of photons – the particles of light – bouncing off other particles. This is exactly what happened when the CMB originated in the early Universe.

Initially, photons were trapped in a hot, dense soup of particles that, by the time the Universe was a few seconds old, consisted mainly of electrons, protons and neutrinos. Owing to the high density, electrons and photons collided with one another so frequently that light could not travel any significant distant before bumping into another electron, making the early Universe extremely ‘foggy’.

Slowly but surely, as the cosmos expanded and cooled, photons and the other particles grew farther apart, and collisions became less frequent. This had two consequences: electrons and protons could finally combine and form neutral atoms without them being torn apart again by an incoming photon, and photons had enough room to travel, being no longer trapped in the cosmic fog.

The new Planck data fixes the date of the end of these ‘Dark Ages’ to roughly 550 million years after the Big Bang, more than 100 million years later than previously determined by earlier polarisation observations from the NASA WMAP satellite (Planck’s predecessor), and has helped resolve a problem for observers of the early Universe.

The Dark Ages lasted until the formation of the first stars and galaxies, specifically the formation of very large stars with extremely hot surfaces, which resulted in the energetic UV-radiation that began the process of reionisation of the neutral hydrogen throughout the Universe.

Very deep images of the sky from the NASA/ESA Hubble Space Telescope have provided a census of the earliest known galaxies, which started forming perhaps 300–400 million years after the Big Bang.

The problem is that with a date for the end of the Dark Ages set at 450 million years after the Big Bang, astronomers can estimate that UV-radiation from such a source would have proved insufficient. “In that case, we would have needed additional, more exotic sources of energy to explain the history of reionisation,” said Professor George Efstathiou, Director of the Kavli Institute of Cosmology.

The additional margin of 100 million years provided by Planck removes this need as stars and galaxies would have had the time to supply the energetic radiation required to bring the Dark Ages to a close and begin the Epoch of reionisation that would last for a further 400 million years.

Although the joint investigation between Planck and BICEP2, searching for the imprinted signature on the polarisation of the CMB of gravitational waves triggered by inflation, found no direct detection of this signal, it crucially placed strong upper-limits on the amount of primordial gravitational waves.

Searching for this signal remains a major focus of ongoing and planned CMB experiments. “The results of the joint analysis demonstrate the power of combining CMB B-mode polarisation observations with measurements at higher frequency from Planck to clean Galactic dust,” said Dr Anthony Challinor of the Kavli Institute for Cosmology.

Inset image: Polarised emission from Milky Way dust Credit: ESA and the Planck Collaboration

New maps from the Planck satellite uncover the ‘polarised’ light from the early Universe across the entire sky, revealing that the first stars formed much later than previously thought.

We would have needed additional, more exotic sources of energy to explain the history of reionisationGeorge EfstathiouESA and the Planck CollaborationPolarisation of the Cosmic Microwave Background

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Dark force could keep Milky Way's neighbours away

5 February 2015 - 5:08pm
Dark energy is thought to work on the scale of the entire universe – but if it is active on galaxies, it could explain why the Milky Way has so few satellites

Hubble Captures Rare Triple-Moon Conjunction

5 February 2015 - 4:58pm

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Firing off a string of snapshots like a sports photographer at a NASCAR race, NASA's Hubble Space Telescope captured a rare look at three of Jupiter's largest moons zipping across the banded face of the gas-giant planet: Europa, Callisto, and Io. Jupiter's four largest moons can commonly be seen transiting the face of the giant planet and casting shadows onto its cloud tops. However, seeing three moons transiting the face of Jupiter at the same time is rare, occurring only once or twice a decade. Missing from the sequence, taken on January 24, 2015, is the moon Ganymede that was too far from Jupiter in angular separation to be part of the conjunction.

Planck reveals first stars were born late

5 February 2015 - 4:00pm

New maps from ESA's Planck satellite uncover the 'polarised' light from the early Universe across the entire sky, revealing that the first stars formed much later than previously thought.

Planck puts new date on first stars

5 February 2015 - 2:16pm

Scientists working on Europe’s Planck satellite say the first stars lit up the Universe more than 100 million years later than was previously thought.

New Horizons mission eyes Pluto

5 February 2015 - 9:06am

The New Horizons probe returns new pictures of the dwarf planet Pluto and its largest moon, Charon.

An Edge-On Close Encounter with Jupiter

5 February 2015 - 2:35am
Jupiter is having a close encounter with Earth, unusual because it is edge-on.

NASA Spacecraft Returns New Images of Pluto En Route to Historic Encounter

4 February 2015 - 9:48pm

NASA’s New Horizons spacecraft returned its first new images of Pluto on Wednesday, as the probe closes in on the dwarf planet. Although still just a dot along with its largest moon, Charon, the images come on the 109th birthday of Clyde Tombaugh, who discovered the distant icy world in 1930.

Gravitational-wave hunt enters next phase

4 February 2015 - 8:02pm

Gravitational-wave hunt enters next phase

Nature 518, 7537 (2015).

Author: Elizabeth Gibney

The landmark BICEP2 result has turned to dust, but the search for primordial cosmic ripples continues.

A possible close supermassive black-hole binary in a quasar with optical periodicity

4 February 2015 - 8:02pm

A possible close supermassive black-hole binary in a quasar with optical periodicity

Nature 518, 7537 (2015). doi:10.1038/nature14143

Authors: Matthew J. Graham, S. G. Djorgovski, Daniel Stern, Eilat Glikman, Andrew J. Drake, Ashish A. Mahabal, Ciro Donalek, Steve Larson & Eric Christensen

Quasars have long been known to be variable sources at all wavelengths. Their optical variability is stochastic and can be due to a variety of physical mechanisms; it is also well-described statistically in terms of a damped random walk model. The recent availability of large collections of astronomical time series of flux measurements (light curves) offers new data sets for a systematic exploration of quasar variability. Here we report the detection of a strong, smooth periodic signal in the optical variability of the quasar PG 1302−102 with a mean observed period of 1,884 ± 88 days. It was identified in a search for periodic variability in a data set of light curves for 247,000 known, spectroscopically confirmed quasars with a temporal baseline of about 9 years. Although the interpretation of this phenomenon is still uncertain, the most plausible mechanisms involve a binary system of two supermassive black holes with a subparsec separation. Such systems are an expected consequence of galaxy mergers and can provide important constraints on models of galaxy formation and evolution.

Rosetta swoops in for a close encounter

4 February 2015 - 5:38pm

ESA's Rosetta probe is preparing to make a close encounter with its comet on 14 February, passing just 6 km from the surface.