‘Sailing spacecraft’ may be used to keep watch on Earth’s polar regions

September 12, 2009 By Leave a Comment

London, September 11 (ANI): If engineers have their way, Earth’s polar regions would soon have watchmen, in the form of ‘sailing’ spacecrafts poised above the planet, relaying vital data on polar climate change or solar storms.

“Solar sailing” has long been a dream for space engineers, who have envisaged craft exploring the depths of the solar system, propelled only by light.

Such craft could be lighter to launch and would range farther than craft using conventional fuel.

But, according to a report in The Times, scientists are now also exploring more realistic applications that could be deployed in the short term.

Because they will never run out of fuel, solar sailing craft could be used to stay in orbits that would be impossible for conventional satellites.

Once launched into space, solar sailing craft would unfurl giant sails of thin reflective material. Photons – particles of light – hitting the sails would transfer energy to the craft.

Although this force is tiny, in the weightless and airless conditions of space, the craft could build up great speeds.

The constant force provided by solar sails could also be used to hold craft in position indefinitely by effectively expanding the solar system’s natural balancing points.

These, known as Lagrange points, exist where the gravitational attractions from two celestial bodies are exactly equal.

According to Colin McInnes, a mechanical engineer at the University of Strathclyde, “Even if you’ve got quite a small force from your solar sail you can shift the Lagrange point quite substantial distances. Even quite a modest solar sail can have a big effect.”

“Because you’ve got that small continuous force it gives you vantage points for observation that you can’t get with conventional spacecraft because you would run out of propellent fairly quickly,” he said.

Solar sailing craft would be able to hover above the polar regions, where conventional satellites cannot provide a constant view.

“Given the polar region is of great interest to climate change and environmentally monitoring, having an observation point above the poles is of practical interest,” Professor McInnes said.

If positioned near a Lagrange point closer to the Sun, solar sailing craft could also give early warnings of solar storms that threaten to disrupt the Earth’s telecommunications, he added. (ANI)

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Indian space engineers start work on country’s first national Astronomy satellite

February 6, 2009 By Leave a Comment

London, Feb 5 (ANI): A team of space engineers from India has arrived in England to work with a team from the University of Leicester to start work on Astrosat, which is India’s first national Astronomy satellite.

The team, from the Tata Institute of Fundamental Research (TIFR), Mumbai, will assemble key components of Astrosat, which is due for launch in 2009.

The engineers will work on the next phase of the mission, when hardware manufactured in India arrives in Leicester for inspection, testing and assembly into a space qualified X-ray camera.

“In several months, when the camera has been assembled and the Leicester built detector assembly and control electronics installed, it will be tested to space qualified standards and shipped back to India for integration into the spacecraft,” said Guy Peters, Astrosat SXT Project Manager UK.

According to Sangam Sinha from the Tata Institute, “Astrosat is critical to the Indian space programme as it is the first satellite entirely dedicated to the pursuit of science.”
Astrosat also forms the beginning of a long term collaboration between TIFR and the University of Leicester through which it is hoped that many more missions will be undertaken jointly by the Indian and UK teams,” he added.

Astrosat will carry five instruments to observe exotic objects such as black holes, neutron stars, and active galaxies at a number of different wavelengths simultaneously, from the ultraviolet band to energetic x-rays.

The camera was designed by the University of Leicester and the manufacture of the hardware components was undertaken by the Tata Institute of Fundamental Research.
n addition to the manufacture of the camera hardware, the Tata Institute of Fundamental Research has built the main telescope body and mirror.

The University of Leicester is to assemble the camera, support the project through consultancy and calibrate the camera at the Space Research Centre. (ANI)

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