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Bangalore. The abrupt termination of
the Rs 3860-million maiden Indian probe to moon
Chandrayaan-1 was not an unexpected development.
Once the radio contact was lost on August 29,
there was nothing much one could do to control
or direct the spacecraft. Nonetheless, leading
scientists from the US National Aeronautics and
Space Administration (NASA), European Space Agency
(ESA) and other countries have endorsed the Indian
Space Research Organisation (ISRO) view that within
its lifespan of 10 months, Chandrayaan-1 has provided
“excellent” data.
The scientists met in Bangalore early September
to consider the performance of this mission, and
according to an ISRO statement, they feel that
the “data obtained by some of the payloads
is of exceptional quality and the initial analysis
of it has already resulted in a notable shift
in understanding the working of the planetary
system.”
Construed as an attempt at building India’s
position as a leading space faring nation, this
first ever deep space probe of ISRO was under
the clouds of uncertainty ever since the loss
of its vital star sensor in April this year. The
backup orientation system was apparently not enough,
and high radiation from the sun eventually killed
its onboard computers.
But ISRO says that although it had planned a
life of two years for Chandrayaan-1, the spacecraft
has already given 90 to 95 per cent of the data
that was expected to have been collected from
it. The one primary lesson now is to strengthen
the heat shield of Chandrayaan-2 when it is launched,
and even the Bhabha Atomic Research Centre (BARC)
is helping out in this process.
First announced by the then Indian Prime Minister
Atal Bihari Vajpayee on Aug 15, 2003 and launched
on Oct 22, 2008, Chandrayaan-1 was carried 11
payloads – five Indian and six international.
It completed 3400 orbits in its lifespan of 312
days around the moon before its mission was called
off.
It’s expected to fall off on the moon’s
surface in a year or two, gradually coming down
from its height of 200 km above the moon’s
surface at present.
One of its major scientific aims was to prepare
a three-dimensional map of the lunar surface showing
distribution of chemicals and minerals in addition
to looking for signs of water and presence of
Helium-3, an eco friendly energy source. ISRO
says that while most of the lunar probes launched
so far focussed on equatorial region, Chandryaan-1
had as its target the polar region of the moon
believed to harbour water ice.
Though in public perception, the premature end
of Chandrayaan-1 comes as a disappointment, space
scientists point out that the fact that it could
survive for more than 300 days in the high radiation
environment and provide a wealth of data on various
aspects of earth’s celestial neighbour is
a “stupendous achievement.” Many of
the lunar missions launched by other countries
have burnt out even in a couple of months after
they were put into orbit.
After the meeting of the international panel
of scientists, ISRO said that four of the 11 payloads,
Terrain Mapping Camera (TMC), Moon Mineralogy
Mapper (M3), Hyper Spectral Imager (HySI) and
Smart near-Infrared Spectrometer (SIR-2), had
given extensive and extremely useful data on the
moon’s topography, mineralogy and chemistry.
“TMC and HySI covered about 70 per cent of
the lunar surface while M3 covered more than 95
per cent. SIR-2 has provided high resolution spectral
data on the mineralogy of the moon.”
Notably, manoeuvring a lunar spacecraft and
positioning it around the moon is a very complex
operation that can be jeopardized by “hostile
space environment”.
A third of the moon probes have met with premature
end while getting inserted into the lunar orbit.
In this context, the former Indian President and
well known space and defence scientist Dr A P
J Abdul Kalam says, ”We have got images and
data from ten instruments onboard the spacecraft
in the last ten months. This means the mission
is completed.” On another front, Chandrayaan-1
has also helped ISRO realize a deep space tracking
network and implement the operational procedures
for travel into deep space.
On his part, ISRO Chairman G Madhavan Nair has
driven home the point that Chandrayaan-1 has completed
95% of its objectives, and that this is reason
enough for satisfaction.
He is of the view that since it was India’s
first foray into deep space, the radiation protection
and thermal management has fallen short of the
real requirements. Though the circumstances leading
to the termination of Chandrayaan-1 probe are
yet to be convincingly established, excessive
radiation seems to be the reason for the failure
of the onboard power supply units feeding the
two computers meant to sustain the command and
control links.
Electronic devices onboard the orbiting spacecraft
are known to be susceptible to radiation and violent
temperature fluctuations.
Meanwhile, ISRO is in the process of setting
up a panel of experts to come out with a post
mortem of what actually went wrong with the Chandrayaan-1
mission.
Chandrayaan-1 project director M Annadurai has
said that lessons learnt from Chandrayaan-1 will
be applied to improve the performance of the systems
forming part of Chandrayaan-II mission slated
for launch during 2012-13.
Nair has clarified that the termination of Chandrayaan-1
mission in less than a year of its launch does
not in any way affect the Chandrayaan-II. Stating
that “valuable lessons learnt from Chandrayaan-1
will come in handy for Chandryaan-11”, he
says that ISRO has now a detailed understanding
and knowledge of the environment it is working
with.
Throwing light on Chandrayaan-1, Nair noted
that it will take from six months to two years
to analyze the data gathered by the Indian moon
mission. He also revealed that a detailed analyses
of the images was needed to arrive at the nature
of the moon and what it was made of.
“From the launch pad and reaching its precise
orbit around the moon and landing the MIP on the
lunar surface and gathering data, we have crossed
all the milestones,” he observed.
Meanwhile, a preliminary analysis of the data
made available by Moon Mineralogy Mapper (M3),
an American payload onboard Chandrayaan-1, is
known to have confirmed the Lunar Magma hypothesis,
the widely accepted explanation for the formation
of the lunar highlands.
As it is, the hypothesis postulates that a large
portion of the moon was once completely molten,
forming a lunar magma ocean. “It proves beyond
doubt the magma ocean hypothesis. There is no
other way, this massive rock type would be formed,”
said Carle Pieters, Science Manager at the NASA
Spectroscopy facility at the Brown University
in the Untied States.
Launched by means of the four-stage trusted
workhorse PSLV (Polar Satellite Launch Vehicle)
rocket from the Satish Dhawan Space Centre (SDSC)
at Sriharikota island on India’s eastern
coast, Chandrayaan-1 entered its final orbit of
100-km above the lunar surface on Nov 4 after
a series of complex manoeuvres. The PSLV was equipped
with an upper trans-lunar stage for its approximately
380,400 km long journey.
On Nov 14, the 30 kg Indian-built Moon Impact
Probe (MIP) with the Indian flag etched on it
crashed on the lunar surface as planned. This
signal achievement catapulted India into elite
league of space faring nations which have injected
probes around the moon – the USA, Europe,
Russia, China and Japan.
As a matter of policy, India has also cooperated
in this moon mission with other countries, and
valuable data is being shared to the advancement
of science.
The loss of star sensor meant to determine the
position of the spacecraft has nudged the Indian
space scientists to come out with an alternate
strategy to keep the lunar probes in a “safe
and stable mode”. Hopefully, in future missions,
there will be adequate backup.
Indeed, ISRO had activated the onboard backup
gyroscope, an electro mechanical device meant
to stabilize the orientation of the spacecraft.
But it was not enough to sustain the mission.
The orbit of Chandrayaan-1 was raised to 200-km
from 100-km as that was considered a “more
benign environment” and the use of onboard
fuel would have been less at that height. But
then, there was no answer to the excessive solar
radiation at that height.
From its new orbital home, Chandryaan-1 provided
clues to the traces of calcium and silicon on
the lunar surface.
This significant sighting of the two vital minerals
was made possible by CXIS (Chandrayaan-1 Imaging
X-ray Spectrometer), a payload contributed by
the ESA through the collaboration between Rutherford
Appleton Laboratory of the United Kingdom and
ISRO Satellite Centre (ISAC) in Bangalore. This
happens to be the second sighting of the minerals,
nine months into the mission.
Incidentally, the first sighting happened two
months into the mission when Moon Mineralogy Mapper
revealed clues to the presence of iron traces
on the moon.
Overall, Chandrayaan-1 has provided clues to
the presence of four mineral elements on the moon.
It may be noted that its 11 scientific instruments
were built in India, USA, UK, Germany, Sweden
and Bulgaria.
According to ISRO sources, data from CIXS and
Moon Mineralogy Mapper will help in mapping the
lunar minerals in great detail and also in getting
an insight into the early history and geological
evolution of the moon. Chandrayaan-1 has provided
more than 70,000 high quality imageries, some
of which provide a breathtaking view of the lunar
mountains and craters in its permanently shadowed
regions.
In a development of significance, on August
21, Chandrayaan-1 in tandem with American lunar
probe Lunar Reconnaissance Orbiter (LRO) successfully
carried out what is known as Bistatic Experminet.
During this experiment, radar instruments onboard
these two lunar spacecraft focused on the same
locations from different angles in a permanently
shadowed crater near the northern pole of the
moon. The objective of the experiment was to gather
additional data and more conclusive information
on the possibility of water ice existing in the
polar region of the moon. The Indian spacecraft
took the pictures and the US satellite relayed
them.
The Chandrayaan-1 mission was realized by India
at a fraction of the cost of the lunar probes
launched by other space faring nations.
As per the benchmark set by the International
Academy of Astronautics, a deep space or planetary
mission could be categorized as low cost if its
price tag does not exceed US$ 500million. Even
the PSLV rocket used for launching Chadnrayaan-1is
a midget compared to the gigantic vehicles used
by China and Japan to launch their respective
lunar probes.
Meanwhile, ISRO has completed the design phase
of Chandrayaan-II which will be an Indo-Russian
project.
While ISRO will be responsible for the moon
orbiter, Russia will develop lander/rover forming
part of the mission. The robotic rover which will
make a soft landing on the surface of the moon,
will pick up soil and rock samples, subject them
to in-situ analyses and send the data instantly
to the mother craft orbiting around the moon.
The site for landing the rover will be determined
based on an analysis of the data transmitted by
Chandrayaan-1.
The biggest hurdle involved in the successful
accomplishment of the Chandrayaan-II mission is
to find a way to ensure that the robotic rover
lands safely on the lunar surface. Due to the
absence of atmosphere in the moon’s periphery,
the option of parachuting the rover is ruled out.
Chandrayaan-II is planned to be launched by
means of the three stage GSLV (Geosynchronous
Satellite Launch Vehicle) featuring an upper cryogenic
engine stage. However Nair has made it plain that
as of now, a manned mission to moon is not on
the agenda of ISRO.
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