RoboNet

	Locations of the telescopes comprising RoboNet-1.0. Credit: Astrophysics Research Institute, Liverpool JMU

British astronomers are celebrating a world first that could revolutionise the future of astronomy.

They have just begun a project to operate a global network of the world's biggest robotic telescopes, dubbed 'RoboNet-1.0' which will be controlled by intelligent software to provide rapid observations of sudden changes in astronomical objects. These may be violent Gamma Ray Bursts or 24-hour surveillance of interesting phenomena.

RoboNet is also looking for Earth-like planets, as yet unseen elsewhere in our Galaxy.

The Liverpool Telescope with its distinctive clamshell dome. Credit: Astrophysics Research Institute, Liverpool JMU

Progress in many of the most exciting areas of modern astronomy relies on being able to follow up unpredictable changes or appearances of objects in the sky as rapidly as possible. It was this that led astronomers at Liverpool John Moores University (LJMU) to pioneer the development of a new generation of fully robotic telescopes, designed and built in the UK by Telescope Technologies Ltd.. Together the Liverpool Telescope (LT) and specially allocated time on the Faulkes North (FTN), soon to be joined by the Faulkes South (FTS), make up RoboNet-1.0

	Artist's impression of a Gamma Ray Burst. Credit European Space Agency

The first mystery RoboNet will examine is the origin of Gamma Ray Bursts (GRBs). Discovered by US spy satellites in the late 1960's, these unpredictable events are the most violent explosions since the Big Bang, far more energetic than supernova explosions. Yet they are extremely brief, lasting from milliseconds to a few minutes, before they fade away to an afterglow lasting a few hours or weeks. Their exact cause is still unknown, although the collapse of supermassive stars or the coalescence of exotic objects such as black holes and neutron stars are prime candidates. To study GRBs, telescopes need to be pointed at the right area of the sky extremely quickly.

In October this year, NASA will launch a new satellite named Swift, in which the UK has a major involvement, and which will pinpoint the explosions of GRBs on the sky more accurately and rapidly than ever before. The co-ordinates of each burst will be relayed to telescopes on the Earth, including those of RoboNet, within seconds of their occurrence, at the rate of one event every few days. Telescopes within the UK's new RoboNet network are designed to respond automatically within a minute of an alert from Swift. It is in the first few minutes after the burst that observations are urgently required to enable astronomers to really understand the cause of these immense explosions, but until now such observations have been extremely difficult to secure.

The image shows an impression by David A. Hardy (© PPARC) of the possible scene from a moon orbiting the extra-solar planet in orbit around the star

RoboNet's second major aim is to discover Earth-like planets around other stars. We now know of more than 100 extra-solar planets. However, all of these are massive planets (like Jupiter) and many are too near to their parent star, and hence too hot, to support life. RoboNet will take advantage of a phenomenon called gravitational microlensing (where light from a distant star is bent and amplified around an otherwise unseen foreground object) to detect cool planets. When a star that is being lensed in this way has a planet, it causes a short 'blip' in the light detected, which rapid-reacting telescopes such as the RoboNet network can follow up. In fact, the network stands the best chance of any existing facility of actually finding another Earth due to the large size of the telescopes, their excellent sites and sensitive instrumentation.
 

 

 

			Did you know . . . ? The research undertaken by RoboNet-1.0 uses the same telescopes schools have access to through the National Schools' Observatory and Faulkes Telescope projects. For more information about RoboNet click here