Presentation is loading. Please wait.

Presentation is loading. Please wait.

Indian Astronomy Satellite Mission (ASTROSAT) National Institutions 1.ISRO, Bangalore 2.TIFR, Mumbai 3.IIA, Bangalore 4.RRI, Bangalore 5.PRL, Ahmedabad.

Published byDorthy Cunningham Modified over 9 years ago

Similar presentations

Presentation on theme: "Indian Astronomy Satellite Mission (ASTROSAT) National Institutions 1.ISRO, Bangalore 2.TIFR, Mumbai 3.IIA, Bangalore 4.RRI, Bangalore 5.PRL, Ahmedabad."— Presentation transcript:

1 Indian Astronomy Satellite Mission (ASTROSAT) National Institutions 1.ISRO, Bangalore 2.TIFR, Mumbai 3.IIA, Bangalore 4.RRI, Bangalore 5.PRL, Ahmedabad International Institutions 1.University of Leicester, UK 2. Canadian Space Research Centre, Canada Kallol Mukerjee Department of Astronomy and Astrophysics Tata Institute of Fundamental Research (TIFR), Mumbai, INDIA

2 ASTROSAT The first fully dedicated multi-wavelength Indian astronomy mission To be launched from India in 2008 using PSLV at 600 km near equator at low inclination angle <10 degrees Cover wide X-ray energy band 0.3-100 keV along with UV and Optical wave bands Timing, Spectroscopy, Imaging and long term monitoring Every instrument is configured in its own inherent features to achieve scientific requirements in specified wave band ASTROSAT is conceived with the prime objective is to do front ranking research utilising multi-wave length capabilities

3 ASTROSAT Instrument Configuration Soft X-ray Telescope (SXT) Cadmium Zinc Telluride Imager (CZT) Large Area X-ray Proportional Counter (LAXPC) Scanning X-ray Sky monitor (SSM) (UVIT) UV Imaging Telescope (UVIT)

4 Soft X-ray Telescope (SXT) CCD-22 based Focal Plane Camera

5 SXT Characteristics Telescope Focal Length2.0 metres Telescope MirrorsConical shells Telescope PSF3 - 4 arcmin Field of view41.3 x 41.3 arcmin DetectorMAT CCD-22 (cooled to -80 deg C) Detector Format600 x 600 pixels Pixel Scale4.13 arcsec/pixel Detector Readout ModesPhoton counting, Imaging & Timing Energy Range0.3 – 8.0 keV Effective Area200 cm2 @ 1.5 keV 20 cm2 @ 6.5 keV Sensitivity 10µ Crab (5  ; 10 4 s) Position Accuracy30 arcsecs

6 Large Area X-ray Proportional Counter (LAXPC)

7 LAXPC Characteristics Collimator field of view1 0 x 1 0 for all the LAXPCs Collimator height45 cm for FOV collimator Material for the Collimator50µ Sn + 25µ Cu + 100µ Al Absorber Gas90 % Xenon + 10 % Methane Gas Pressure~ Two atmosphere (1670 torr) Detector Window50 (or 25) µ thick Mylar coated one side with 500 Å thick Aluminium Energy range3-80 keV Average detection efficiency100% (E < 20 keV) ~ 50 % in 20-100 keV Time resolution10 ms (10µ sec for event mode) Sensitivity14000 counts per sec per Crab Unit

8 CZT Imager Assembly Radiator Plate X connector CAM with Holder Collimator CZT Top Housing CZT Bottom Housing Mounting/Interface Lug Heat Pipe Radiator Holding Bracket Alpha Box

9 CZT Characteristics Area1024 cm 2 Pixels16384 Pixel size2.5 mm X 2.5 mm (5 mm thick) Read-outASIC based (128 chips of 128 channels) Imaging methodCoded Aperture Mask (CAM) Field of View17 o X 17 o (CAM) > 100 keV 6 o X 6 o (10 – 100 keV) Angular resolution8’ (21’ geometric) Energy resolution 5% @ 60 keV Energy range10 – 100 keV Up to 1 MeV (Photometric) Sensitivity 0.5 mCrab (5  ; 10 4 s)

10  Measure periodicities and their evolution including Pulsations, QPOs, Binary periods etc. (Studies of QPOs above 20 keV is relatively unexplored field).  Timing and spectral evolution of X-ray bursts, flares and other sporadic variability.  Studies of X-ray Transients and their temporal and Spectral characteristics.  Long and Short term variability in AGNs. Principal Science Objectives of Astrosat X-ray instruments 1. Timing studies of X-ray Binaries 2.Studies of continuum X-ray emission over a broad band of 3-80 keV. X-ray Binaries, Supernova remnants (SNRs), CVs, Stellar Coronae, AGNs etc.

11 3.Detection of non-thermal components in the X-ray spectra of SNRs and Clusters of Galaxies By accurate spectral measurements in 3 – 80 keV band in combination with Simultaneous measurements from SXT in 0.3 – 8 keV region to understand the acceleration processes and origin of cosmic rays in the case of SNRs. 4. Measuring magnetic fields of neutron stars By detection and studies of cyclotron lines, most of which lie in 10 – 60 keV region in the spectra of X-ray pulsars. 5. Correlated time variations of intensity In 3-80 keV band with those in the visible, UV and soft X-ray (0.3-8 keV) bands to investigate the origin and mechanism of emission of radiation in different wave bands. Principal Science Objectives of Astrosat X-ray instruments (continued…)

12 Scientific Objectives of SSM  To detect and locate new transients Long period Be binaries, X-ray novae, etc.  Alert observers Point Astrosat, carry out optical identification and obtain system parameters like mass function, binary period, mass of the compact object etc..  Study X-ray binary sources over a large dynamic range L – 10 33 to 10 38 erg/s; dM/dt.  Source states Low hard state, High soft state, Intermediate, very high etc.  Super orbital period in HMXBs Precession period of disc/neutron star  Long term cycles and Irregular variations in LMXBs Mass transfer instabilities?  Pulsar studies Spin up/down phases of pulsars.

13 Ultraviolet Imaging Telescope (UVIT) Two Telescopes each of 38 cm Aperture (Twin Richey Chretian 2 mirror system) Three channels simultaneously Far UV (130 nm – 180 nm), Near UV (180 nm – 300 nm) and visible (350 nm – 600 nm) Photon counting + CCD based UV and optical detectors Filters: FUV: 135 nm, CIV (155 nm), 165 nm; NUV: CIII (190.9 nm), 225 nm, CII (235 nm), O II (247 nm), 255 nm, 285 nm Sensitivity = 21 mag (in 1000 seconds) Field of view = 30 arcmins (>50 times that of HST) Angular resolution = 1.8 arcsec (2-3 times better than GALEX) Time resolution = 1 s

14 Scientific Objectives with UVIT Deep Surveys: UV sky survey, Detection of galaxies at z ~ 2, Faint quasars and AGNs. Lyman-  Surveys: Nearby galaxies & clusters of galaxies. Galaxies in UV: Evolution of stellar populations, OB stars, Dust properties, morphology. Hot Stars in the local group of galaxies : global studies of young population In the Milky Way: Studies of populations of sub-classes of White Dwarfs, WDs in the globular clusters High Mass Stars and luminous blue variables – distance calibrators Interstellar Matter Probes Stellar Solar Connection (cool stars; Rotation, magnetic activity, UV flares) Cataclysmic Variables and X-ray Binaries

15 ASTROSAT: Key Scientific Objectives 1.SIMULTANEOUS COVERAGE (UV, Soft X-rays and Hard X-rays): Environment of BLACK-HOLES and other ACCRETION POWERED sources. 2.WIDE BAND X-ray SPECTROSCOPY: Continuum + line emission; Separation of thermal and non-thermal components. 3.TIMING: Pulsars, QPOs etc. 4.TRANSIENT SOURCES 5.UV SURVEY, Young stellar Populations

Download ppt "Indian Astronomy Satellite Mission (ASTROSAT) National Institutions 1.ISRO, Bangalore 2.TIFR, Mumbai 3.IIA, Bangalore 4.RRI, Bangalore 5.PRL, Ahmedabad."

Similar presentations

ASTROSAT LAXPC Biswajit Paul Raman Research Institute, Bangalore On behalf of the LAXPC Team.

ASTROSAT LAXPC Biswajit Paul Raman Research Institute, Bangalore On behalf of the LAXPC Team.
ASTROSAT Prospects for a Hard X-ray Survey  ASTROSAT Overview  LAXPC Details  Science Prospects  Hard X-ray Survey Prospects  Beyond ASTROSAT Biswajit.

ASTROSAT Prospects for a Hard X-ray Survey  ASTROSAT Overview  LAXPC Details  Science Prospects  Hard X-ray Survey Prospects  Beyond ASTROSAT Biswajit.
X-ray Instruments for MiniSatellites High Resolution Spectroscopic Survey Missing Baryons: Warm Hot Intergalactic Material(WHIM) Wide Field Monitoring.

X-ray Instruments for MiniSatellites High Resolution Spectroscopic Survey Missing Baryons: Warm Hot Intergalactic Material(WHIM) Wide Field Monitoring.
Workshop „X-ray Spectroscopy and Plasma Diagnostics from the RESIK, RHESSI and SPIRIT Instruments”, 6 – 8 December 2005, Wrocław Spectroscopy Department.

Workshop „X-ray Spectroscopy and Plasma Diagnostics from the RESIK, RHESSI and SPIRIT Instruments”, 6 – 8 December 2005, Wrocław Spectroscopy Department.
WHY STUDY ASTROPHYSICS?  To gain an understanding of our universe and our role in it Learn about how the universe operates --> modern science  Observations.

WHY STUDY ASTROPHYSICS?  To gain an understanding of our universe and our role in it Learn about how the universe operates --> modern science  Observations.
Optical Astronomy Imaging Chain: Telescopes & CCDs.

Optical Astronomy Imaging Chain: Telescopes & CCDs.
Mass transfer in a binary system

Mass transfer in a binary system
SWD 2005, Taormina, Jun,19-26 An EUV Imaging Detector of Space Solar Telescope Qian Song, Binxun Ye, Zhaowang Zhao National Astronomical Observatories,

SWD 2005, Taormina, Jun,19-26 An EUV Imaging Detector of Space Solar Telescope Qian Song, Binxun Ye, Zhaowang Zhao National Astronomical Observatories,
S.Mereghetti - Simbol-X: The hard X-ray Universe in focus - Bologna -15/5/20071 Studying the Galactic Ridge Emission with SIMBOL-X Sandro Mereghetti IASF.

S.Mereghetti - Simbol-X: The hard X-ray Universe in focus - Bologna -15/5/20071 Studying the Galactic Ridge Emission with SIMBOL-X Sandro Mereghetti IASF.
Athena+, ESA’s next generation X-ray observatory Gregor Rauw High-Energy Astrophysics Group Liège University on behalf of the Athena+ coordination group.

Athena+, ESA’s next generation X-ray observatory Gregor Rauw High-Energy Astrophysics Group Liège University on behalf of the Athena+ coordination group.
Status of the Astrosat mission

Status of the Astrosat mission
X-ray transients with Astrosat

X-ray transients with Astrosat
X-ray polarisation: Science

X-ray polarisation: Science
5/21/2015G.C.Stewart Berlin 1 ASTROSAT: A Multi-Wavelength Satellite 1st Dedicated Indian Astronomical Mission ISRO Satellite Centre (ISAC), Bangalore.

5/21/2015G.C.Stewart Berlin 1 ASTROSAT: A Multi-Wavelength Satellite 1st Dedicated Indian Astronomical Mission ISRO Satellite Centre (ISAC), Bangalore.
X Ray Astronomy Presented by:- Mohit Shashwat Ankit.

X Ray Astronomy Presented by:- Mohit Shashwat Ankit.
GALEX UV Light-curves of M-Dwarf Flare Stars: “ THE FLARING UV SKY” Barry Welsh, Jonathan Wheatley & Stanley Browne (UC Berkeley) Richard Robinson (Catholic.

GALEX UV Light-curves of M-Dwarf Flare Stars: “ THE FLARING UV SKY” Barry Welsh, Jonathan Wheatley & Stanley Browne (UC Berkeley) Richard Robinson (Catholic.
The all-sky distribution of 511 keV electron-positron annihilation emission Kn ö dlseder, J., Jean, P., Lonjou, V., et al. 2005, A&A, 441, 513.

The all-sky distribution of 511 keV electron-positron annihilation emission Kn ö dlseder, J., Jean, P., Lonjou, V., et al. 2005, A&A, 441, 513.
China’s Future Missions in Space High Energy Astrophysics Shuang Nan Zhang 张双南 Tsinghua University and Institute of High Energy Physics, Chinese Academy.

China’s Future Missions in Space High Energy Astrophysics Shuang Nan Zhang 张双南 Tsinghua University and Institute of High Energy Physics, Chinese Academy.
1.B – Solar Dynamo 1.C – Global Circulation 1.D – Irradiance Sources 1.H – Far-side Imaging 1.F – Solar Subsurface Weather 1.E – Coronal Magnetic Field.

1.B – Solar Dynamo 1.C – Global Circulation 1.D – Irradiance Sources 1.H – Far-side Imaging 1.F – Solar Subsurface Weather 1.E – Coronal Magnetic Field.
2nd Zwicky Informal Workshop - Berkeley 2005 May 26, 2005John Vallerga John Vallerga, Barry Welsh, Anton Tremsin, Jason McPhate and Oswald Siegmund Experimental.

2nd Zwicky Informal Workshop - Berkeley 2005 May 26, 2005John Vallerga John Vallerga, Barry Welsh, Anton Tremsin, Jason McPhate and Oswald Siegmund Experimental.

Similar presentations

Ads by Google