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Bangalore Mirror Bureau | Sep 2, 2016, 04.00 AM IST
The large area X-ray proportional counter (LAXPC) flight spare at TIFR, Mumbai. The latest observations ha ve been mad e by LAXPC instrument, on board the space mission, Astrosat
By: Mihika Basu
India's first dedicated satellite, Astrosat, which was launched by the Indian Space Research Organisation (ISRO), has, for the first time, observed "rapid variability of high-energy X-ray emission" from a black hole system. Further analysis of the data will provide "unprecedented insight" into the temporal behaviour of black hole systems, said the research team from multiple institutions in Bengaluru, Mumbai and Pune.
"After careful performance verification of the instruments on board Astrosat, Indian scientists are now using Astrosat to unravel the mysteries of the Universe and this finding is just the beginning of a large number of such discoveries that Astrosat is expected to make.
This marks a new era for Indian astronomy with Astrosat being a front-line dedicated astronomy satellite," said the researchers from the department of astronomy & astrophysics, Raman Research Institute, Bengaluru; Tata Institute of Fundamental Research (TIFR), Mumbai; and Inter-University Centre for Astronomy and Astrophysics, Pune, among others. The findings have been published in 'Astrophysical Journal'.
In black hole systems, mass from a regular star gets stripped off and falls towards the black hole forming a disk around the black hole. The temperature of the disk is more than ten million degrees and hence the system emits X-rays. The total power coming out of these systems is often more than ten thousand times that of the sun. Yet these systems vary rapidly in time-scales much less than a second.
Astronomers have always been puzzled by the enigmatic black hole system called GRS 1915+105.
It shows many different kinds of behaviours and its X-ray emission sometimes oscillates nearly on a time-scale of a few hundred milliseconds.
While these oscillations have been known and studied earlier in low-energy X-rays using the American satellite Rossi X-ray timing experiment, they have now been detected and characterised in high-energy X-rays by the large area X-ray proportional counter (LAXPC) instrument on board the space mission, AstroSat. The LAXPC instrument, which is the only instrument worldwide capable of such study, was designed and developed indigenously at TIFR.
NO OTHER OBSERVATORY CAPABLE OF ACHIEVING SUCH RESULTS
Astrosat, which was successfully launched on September 28, 2015, has five scientific instruments on board, including LAXPC. With a mass of 414 kg and an area of 8,000 cm square - three units of LAXPC - was fabricated by TIFR Prof JS Yadav. No payload of this area has been flown so far and hence it was a big challenge for the country when it was first mooted, said scientists. The instrument also measured the arrival time difference between the high- and low-energy X-rays, which is of the order of tens of milliseconds, providing direct clues to the geometry and dynamic behaviour of the gas swirling round a spinning black hole. "All this information was obtained by just nine orbits or a few hours of AstroSat observation of the source. No other observatory is capable of achieving these results," said the authors.
http://www.bangaloremirror.indiatim...Indias-very-own-ISRO/articleshow/53969282.cms
More info @: http://www.isro.gov.in/astrosat/large-area-x-ray-proportional-counters-laxpc
@PARIKRAMA
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The large area X-ray proportional counter (LAXPC) flight spare at TIFR, Mumbai. The latest observations ha ve been mad e by LAXPC instrument, on board the space mission, Astrosat
By: Mihika Basu
India's first dedicated satellite, Astrosat, which was launched by the Indian Space Research Organisation (ISRO), has, for the first time, observed "rapid variability of high-energy X-ray emission" from a black hole system. Further analysis of the data will provide "unprecedented insight" into the temporal behaviour of black hole systems, said the research team from multiple institutions in Bengaluru, Mumbai and Pune.
"After careful performance verification of the instruments on board Astrosat, Indian scientists are now using Astrosat to unravel the mysteries of the Universe and this finding is just the beginning of a large number of such discoveries that Astrosat is expected to make.
This marks a new era for Indian astronomy with Astrosat being a front-line dedicated astronomy satellite," said the researchers from the department of astronomy & astrophysics, Raman Research Institute, Bengaluru; Tata Institute of Fundamental Research (TIFR), Mumbai; and Inter-University Centre for Astronomy and Astrophysics, Pune, among others. The findings have been published in 'Astrophysical Journal'.
In black hole systems, mass from a regular star gets stripped off and falls towards the black hole forming a disk around the black hole. The temperature of the disk is more than ten million degrees and hence the system emits X-rays. The total power coming out of these systems is often more than ten thousand times that of the sun. Yet these systems vary rapidly in time-scales much less than a second.
Astronomers have always been puzzled by the enigmatic black hole system called GRS 1915+105.
It shows many different kinds of behaviours and its X-ray emission sometimes oscillates nearly on a time-scale of a few hundred milliseconds.
While these oscillations have been known and studied earlier in low-energy X-rays using the American satellite Rossi X-ray timing experiment, they have now been detected and characterised in high-energy X-rays by the large area X-ray proportional counter (LAXPC) instrument on board the space mission, AstroSat. The LAXPC instrument, which is the only instrument worldwide capable of such study, was designed and developed indigenously at TIFR.
NO OTHER OBSERVATORY CAPABLE OF ACHIEVING SUCH RESULTS
Astrosat, which was successfully launched on September 28, 2015, has five scientific instruments on board, including LAXPC. With a mass of 414 kg and an area of 8,000 cm square - three units of LAXPC - was fabricated by TIFR Prof JS Yadav. No payload of this area has been flown so far and hence it was a big challenge for the country when it was first mooted, said scientists. The instrument also measured the arrival time difference between the high- and low-energy X-rays, which is of the order of tens of milliseconds, providing direct clues to the geometry and dynamic behaviour of the gas swirling round a spinning black hole. "All this information was obtained by just nine orbits or a few hours of AstroSat observation of the source. No other observatory is capable of achieving these results," said the authors.
http://www.bangaloremirror.indiatim...Indias-very-own-ISRO/articleshow/53969282.cms
More info @: http://www.isro.gov.in/astrosat/large-area-x-ray-proportional-counters-laxpc
@PARIKRAMA
@Abingdonboy @anant_s @Taygibay @Picdelamirand-oil @Vergennes @randomradio @Ankit Kumar 002 @MilSpec @Koovie @Echo_419 @Dash @hellfire @ito @SR-91 @AMCA @DesiGuy1403 @ranjeet @hellfire @fsayed @SpArK @AUSTERLITZ @nair @proud_indian @Roybot @jbgt90 @Sergi @Water Car Engineer @dadeechi @kurup @Rain Man @kaykay @Joe Shearer @Tshering22 @Dandpatta @danger007 @Didact @Soumitra @SrNair @TejasMk3@jbgt90 @ranjeet @4GTejasBVR @The_Showstopper @guest11 @egodoc222 @Nilgiri @SarthakGanguly @Omega007 @GURU DUTT @HariPrasad @JanjaWeed @litefire @AMCA @Perpendicular @Spectre@litefire @AMCA @Perpendicular@Ryuzaki @CorporateAffairs @GR!FF!N @migflug @Levina@SvenSvensonov @-xXx- @Perpendicular @proud_indian @Mustang06 @Param @Local_Legend @Ali Zadi @hellfire @egodoc222 @CorporateAffairs @Major Shaitan Singh @jha @SmilingBuddha @#hydra# @danish_vij @[Bregs] @Skillrex @Hephaestus @SR-91 @Techy @litefire @R!CK @zebra7 @dev_moh @DesiGuy1403 @itachii @nik141993 @Marxist @Glorino @noksss @jbgt90 @Skull and Bones @Crixus @others