Wednesday, August 31, 2016

India tests new scramjet rocket engine


The Indian Space Research Organisation (ISRO) has successfully tested its new scramjet engine and expects a commercial launch. This is being touted as the most cost-effective rocket engine the world has seen.

With this, the ISRO, which is already the most inexpensive commercial satellite launch service provider in the world, expects to attract more customers worldwide.
The test carried out from Satish Dhawan Space Center, located at Sriharikota in the southern state of Andhra Pradesh, demonstrated the key technological aspects of the engine.

These included the ignition of its engines at supersonic speeds, maintaining thrust at supersonic speeds, and tests of its air intake mechanism and fuel injection systems.
"The first experimental mission of ISRO's Scramjet Engine towards the realization of an Air Breathing Propulsion System was conducted August 28, 2016 from Satish Dhawan Space Center SHAR, Sriharikota.

After a flight of about 300 seconds, the vehicle touched down in the Bay of Bengal, approximately 320 km from Sriharikota. The vehicle was successfully tracked during its flight from the ground stations at Sriharikota," reads a statement released by ISRO.

The Scramjet engine designed by ISRO uses Hydrogen as a fuel and the Oxygen from the atmospheric air as its oxidizer. The use of atmospheric oxygen will reduce the weight of the rocket engine substantially, which can then be used to launch heavy payloads.

Thursday, August 25, 2016

Rocky planet found orbiting habitable zone of nearest star

An international team of astronomers including Carnegie's Paul Butler has found clear evidence of a planet orbiting Proxima Centauri, the closest star to our Solar System. The new world, designated Proxima b, orbits its cool red parent star every 11 days and has a temperature suitable for liquid water to exist on its surface, if it were present.
This rocky world is a little more massive than the Earth and is the closest exoplanet to us; it may even be the closest possible abode for life beyond our own Sun. A paper describing this milestone finding is published by Nature.
Just over four light-years from our Solar System sits a red dwarf star named Proxima Centauri. This cool star in the constellation of Centaurus is too faint to be seen with the naked eye and is close to the much brighter pair of stars known as Alpha Centauri A and B.
During the first half of 2016, the HARPS spectrograph on the European Southern Observatory's 3.6-meter telescope at La Silla regularly observed Proxima Centauri, as did other professional and amateur telescopes around the world.
The team of astronomers, called the Pale Red Dot campaign, led by Carnegie alum Guillem Anglada-Escude of Queen Mary, University of London was looking for a tiny back-and-forth wobble in the star caused by the gravitational pull of an orbiting planet.
In addition to data gathered by the Pale Red Dot campaign, the paper incorporates contributions from scientists who have been observing Proxima Centauri for years, including Butler.
As this was a topic with very wide public interest, the progress of the campaign between mid-January and April 2016 was shared publicly as it occurred on the Pale Red Dot website and via social media. Numerous outreach articles from specialists all around the world accompanied the reports on data collection.
Anglada-Escude explains the background to this unique search: "The first hints of a possible planet were spotted back in 2013, but the detection was not convincing. Since then we have worked hard to get further observations off the ground with help from ESO and others. The recent Pale Red Dot campaign has been about two years in the planning."
The Pale Red Dot data, when combined with earlier observations, revealed a truly exciting result. At regular intervals, Proxima Centauri is approaching Earth at about 5 kilometers per hour - normal human walking pace - and at opposite times in those cycles it is receding at the same speed.
This regular pattern repeats with a period of 11.2 days. Careful analysis of how tiny the resulting Doppler shifts were showed that they indicated the presence of a planet with a mass at least 1.3 times that of the Earth, orbiting about 7 million kilometers from Proxima Centauri - only 5 percent of the distance between the Earth and the Sun.
One complication to the analysis is that red dwarfs like Proxima Centauri are active stars, and their natural brightness variations could mimic the presence of a planet. In order to exclude this possibility, the team also monitored the changing brightness of the star very carefully during the campaign using the ASH2 telescope at the San Pedro de Atacama Celestial Explorations Observatory in Chile and the Las Cumbres Observatory Global Telescope Network.
Although the planet companion, Proxima b, orbits much closer to its star than Mercury does to the Sun in our Solar System, the star itself is far fainter and cooler than the Sun. As a result, Proxima b has an estimated temperature that - if water were present - would allow it in a liquid state on its surface, thus placing it within the so-called "habitable zone" around the star.
Despite the temperate orbit of Proxima b, the conditions on the surface may be strongly affected by the ultraviolet and x-ray flares from the star - far more intense than the Earth experiences from the Sun.
"The discovery of the potentially habitable planet around Proxima Cen is the culmination of 30 years of work that has improved stellar velocity measurement precision from 300 m/s to 1 m/s," Butler said.
"This work has resulted in the discovery of hundreds of planets around the nearest stars, and now a potentially habitable planet around the nearest star in the sky. This work confirms the Kepler satellite and precision velocity studies that have shown that potentially habitable planets are common, and points the way to the future when such planets will be directly observed with giant ground- and space-based telescopes."

Monday, August 15, 2016

World's Largest Telescope Unlikely to Find Home in India


The telescope is part of an ambitious international project to discover more about our universe.
One of the potential alternate sites for the Thirty Meter Telescope (TMT), proposed for the Indian town of Hanle, has less advantageous characteristics than other places Indian Minister of State for Science and Technology Y. S. Chowdary said before parliament.
"Hanle site has lower seeing values of 0.9-1.2 arc sec as compared to the alternate sites in Chile and Canary Islands of Spain (La Palma) which have seeing values of 0.55 arc sec.
Thus, scientifically, Hanle has less advantageous characteristics for hosting a mega telescope like the TMT in comparison to the other alternate sites."
Indian participation in the TMT project is being jointly funded and overseen by the Department of Science and Technology (DST) and the Department of Atomic Energy (DAE). TMT was originally set to be installed at Mauna Kea in Hawaii, the US.
The construction work for TMT at Mauna Kea was started but had to be stalled due to revocation of a permit by orders of the Supreme Court of Hawaii.