This "Second First Look" into a permanently-shadowed
lunar polar crater came with the release of this image
from the NASA Mini-SAR experiment, flown on
India Space Research Organisation's Chandrayaan 1
lunar polar crater came with the release of this image
from the NASA Mini-SAR experiment, flown on
India Space Research Organisation's Chandrayaan 1
Bangalore: The Indian space agency has raised the orbit of its first unmanned lunar spacecraft Chandrayaan-1 to 200km from the lunar surface for further studies on orbit perturbations and gravitational field variations of the Moon.
'With the successful completion of all the mission objectives from 100 km above the moon since November 2008, we have raised the height of the spacecraft to 200 km Tuesday to enable imaging lunar surface with a wider swath,' the Indian Space Research Organisation (ISRO) said in a statement here Wednesday.
During the last seven months, all the 11 scientific payloads onboard the 519kg Chandrayaan-1 spacecraft have been operationalised and excellent quality data has been received.
'The scientific community from India and other participating international agencies are analysing the data and several interesting results have been obtained,' the statement said.
The spacecraft operations are being carried out from the ISRO telemetry, tracking and command network (ISTRAC) in Bangalore and the Indian deep space network at Byalalu, about 40km from India's tech hub.
'The scientific data from Chandrayaan-1 is being archived and disseminated from the Indian space science data centre, which is also located at Byalalu,' the statement added.
Of the 11 scientific instruments (payloads), five are Indian and six foreign, including three from the European Space Agency (ESA), two from the US National Aeronautics and Space Administration (NASA) of the US and one from Bulgaria.
The scientific objectives of the spacecraft are remote sensing of the Moon in visible, near infra-red, low energy x-ray and high-energy x-ray regions.
During the two-year expedition, some of the payloads will prepare a three-dimensional atlas of both near and far side of moon, with a high spatial and altitude resolution of 5-10 metres.
'Specific instruments will conduct chemical and mineralogical mapping of the entire lunar surface for collecting data on the distribution of elements such as magnesium, aluminium, silicon, calcium, iron and titanium, with a spatial resolution of about 25km and high atomic number elements such as radon, uranium and thorium, with a spatial resolution of about 20km,' a senior space scientist told IANS.
Of the five Indian payloads, the 34kg moon impact probe (MIP) was crashed onto the lunar surface November 14.
During the probe's 25-minute descent, its mass spectrometer measured the constituents of the thin lunar atmosphere. The spectrometer also analysed the chemicals and minerals of the moon and relayed the data to the ground station after impacting the lunar surface.
The probe, carrying three instruments and with the Indian flag painted on its outer panes, settled in a crater in the Moon's South Pole.
'With the successful completion of all the mission objectives from 100 km above the moon since November 2008, we have raised the height of the spacecraft to 200 km Tuesday to enable imaging lunar surface with a wider swath,' the Indian Space Research Organisation (ISRO) said in a statement here Wednesday.
During the last seven months, all the 11 scientific payloads onboard the 519kg Chandrayaan-1 spacecraft have been operationalised and excellent quality data has been received.
'The scientific community from India and other participating international agencies are analysing the data and several interesting results have been obtained,' the statement said.
The spacecraft operations are being carried out from the ISRO telemetry, tracking and command network (ISTRAC) in Bangalore and the Indian deep space network at Byalalu, about 40km from India's tech hub.
'The scientific data from Chandrayaan-1 is being archived and disseminated from the Indian space science data centre, which is also located at Byalalu,' the statement added.
Of the 11 scientific instruments (payloads), five are Indian and six foreign, including three from the European Space Agency (ESA), two from the US National Aeronautics and Space Administration (NASA) of the US and one from Bulgaria.
The scientific objectives of the spacecraft are remote sensing of the Moon in visible, near infra-red, low energy x-ray and high-energy x-ray regions.
During the two-year expedition, some of the payloads will prepare a three-dimensional atlas of both near and far side of moon, with a high spatial and altitude resolution of 5-10 metres.
'Specific instruments will conduct chemical and mineralogical mapping of the entire lunar surface for collecting data on the distribution of elements such as magnesium, aluminium, silicon, calcium, iron and titanium, with a spatial resolution of about 25km and high atomic number elements such as radon, uranium and thorium, with a spatial resolution of about 20km,' a senior space scientist told IANS.
Of the five Indian payloads, the 34kg moon impact probe (MIP) was crashed onto the lunar surface November 14.
During the probe's 25-minute descent, its mass spectrometer measured the constituents of the thin lunar atmosphere. The spectrometer also analysed the chemicals and minerals of the moon and relayed the data to the ground station after impacting the lunar surface.
The probe, carrying three instruments and with the Indian flag painted on its outer panes, settled in a crater in the Moon's South Pole.
2 comments:
Thanks for sharing informative post...
Regards
georeferencing services
My pleasure. I just wish there were more information to share about Chandrayaan 1 and Kaguya, as well. Looking forward to all the new probes' data being uploaded to the Planetary Data System.
Post a Comment