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Gamma-ray Large Area Space Telescope: Physics Goals and Instrument Status Jennifer Carson SLAC/KIPAC for the GLAST LAT collaboration GLAST lifetime: 5+5.

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Presentation on theme: "Gamma-ray Large Area Space Telescope: Physics Goals and Instrument Status Jennifer Carson SLAC/KIPAC for the GLAST LAT collaboration GLAST lifetime: 5+5."— Presentation transcript:

1 Gamma-ray Large Area Space Telescope: Physics Goals and Instrument Status Jennifer Carson SLAC/KIPAC for the GLAST LAT collaboration GLAST lifetime: 5+5 years Launch date: Fall 2007 LAT GBM

2 Jennifer Carson - GLAST2 GLAST LAT Collaboration France –IN2P3, CEA/Saclay Italy –INFN, ASI Japan –Hiroshima University –ISAS, RIKEN Sweden –Royal Institute of Technology (KTH) –Stockholm University United States –California State University at Sonoma –University of California at Santa Cruz - Santa Cruz Institute of Particle Physics –Goddard Space Flight Center – Laboratory for High Energy Astrophysics –Naval Research Laboratory –Ohio State University –Stanford University (SLAC and HEPL/Physics) –University of Washington –Washington University, St. Louis Principal Investigator: Peter Michelson (Stanford & SLAC) ~225 Members (~80 Affiliated Scientists, 23 Postdocs, and 32 Graduate Students) Cooperation between NASA and DOE, with key international contributions from France, Italy, Japan and Sweden. Managed at Stanford Linear Accelerator Center (SLAC).

3 Jennifer Carson - GLAST3 GLAST Burst Monitor (GBM) 8 keV < E < 30 MeV (overlaps w/ LAT) FoV = 9.5 sr 12% energy resolution at 511 keV On-board localization: < 15° in 1.8s 2-3° localization in ~10s – minutes ~200 GRBs/year, > 50 in LAT FoV NaI crystals (12) low-energy spectral coverage 8 keV to 1 MeV BGO crystals (2) high-energy spectral coverage 150 keV to 30 MeV Status: Being integrated onto spacecraft! PI: Dr. Charles Meegan (MSFC) GBM http://f64.nsstc.nasa.gov/gbm/

4 Jennifer Carson - GLAST4 Large Area Telescope (LAT) Anti-coincidence detector: - Segmented - Vetos CR background Tracker (16 towers): - Facilitates pair conversion  Tungsten conversion foils - Measures e - /e + track  18 layers of Si strips  87 m 2 of Si! Calorimeter: - Measures photon energy  1536 CsI crystals ~20 MeV < E < ~300 GeV2.4 sr FoV

5 Jennifer Carson - GLAST5 LAT Features & Status Status: - All vibration tests completed - Currently in thermal vacuum testing - Detector response tests underway at CERN - Ships for integration onto spacecraft: 9/15/06 3  10 -9 cm -2 s -1 in 1 yr ~10,000 sources! Src loc.: ~0.4’ – 10’ < 0.1° at E = 10 GeV < 0.35° at E = 1 GeV Angular Resolution (per  ) Point-source sensitivity Effective Area 10 4 cm 2 at 10 GeV 1 year 5 years thin thick all layers http://www-glast.slac.stanford.edu/software/IS/glast_lat_performance.htm

6 Jennifer Carson - GLAST6 In 1 day, detect (at 5  ) the weakest EGRET sources. In 2 weeks, detect # of photons that EGRET detected in entire mission. Source Sensitivity: All-sky Scan Mode EGRET Fluxes - GRB940217 (100sec) - PKS 1622-287 flare - 3C279 flare - Vela Pulsar - Crab Pulsar - 3EG 2020+40 (SNR g Cygni?) - 3EG 1835+59 - 3C279 lowest 5s detection - 3EG 1911-2000 (AGN) - Mrk 421 - Weakest 5  EGRET source 100 seconds 90 minutes (1 orbit) 1 day

7 Jennifer Carson - GLAST7 55 Days of GLAST Science Catalogs Diffuse Emission AGN Pulsars & SNRs UIDs Galaxies Dark Matter GRBs Solar System Sources Realistic! Uncertainty in instrument response & background, + realistic science models

8 Jennifer Carson - GLAST8 Monitoring Variability with GLAST DC2 input model Likelihood output  Input models: - broken PL - Flux /  correlation - quiescence + moderate flare  Likelihood model: - single PL - daily averages during low/moderate flux levels Threshold for 1 st year public data release (~2/month)

9 Jennifer Carson - GLAST9 Monitoring Variability with GLAST DC2 input model Likelihood output Daily hardness ratios

10 Jennifer Carson - GLAST10 Monitoring Variability with GLAST DC2 input model Likelihood output Twelve-hour exposures

11 Jennifer Carson - GLAST11 Monitoring Variability with GLAST DC2 input model Likelihood output Six-hour exposures

12 Jennifer Carson - GLAST12 Courtesy of J. Chiang LATX-ray Snapshot SEDs with GLAST Hardness ratios SED evolution w/ synch. cooling  Light curves on few-hour timescales  R b /D  If  cool ~ days (c.f. Böttcher & Chiang 2002)… - 12-hour exposures:  F /F < 10%,   /  < 5%   track particle cooling after flares  measure  as e - s cool  constrain B,  1,  2, p 12-hr exp  snapshot SEDs during cooling Expect dozens of srcs w/ these measurements Twelve-hour exposures

13 Jennifer Carson - GLAST13 Time-averaged SEDs: Past Efforts Petry et al. 2000  Simultaneous Mrk 501 data (1997) - RXTE, BATSE, HEGRA - Two epochs (1 week each)  Non-simultaneous EGRET data  One-zone, time-ave. SSC model:  magnetic field B  blob radius R B  e - distribution (n e, p,  1,  2 )  Data cannot constrain B and  1  Need complete, simultaneous HE coverage! Low state High state Mrk 501

14 Jennifer Carson - GLAST14 Time-averaged SEDs with GLAST VERITAS sensitivity Simulated data Unbinned analysis LAT Mrk 501

15 Jennifer Carson - GLAST15 Time-averaged SEDs with GLAST VERITAS Unbinned analysis BeppoSAX LAT With joint LAT/TeV observations, cover the entire HE peak…  Constrain  1 & B Plus X-ray observations…  Probe relative contributions of Synch. & IC cooling  Measure all parameters: R b, B, n e, p,  1,  2 Mrk 501

16 Jennifer Carson - GLAST16 Summary The instruments - GBM is undergoing integration with the spacecraft - LAT is completing thermal vacuum tests, spacecraft integration begins soon The strategy - Survey mode  entire sky every three hours - Thousands of new sources expected! Examples of the (AGN) science - Track variability on hourly timescales during bright states - Snapshot SEDs of bright flares - Daily averages during moderate and low states - Time-averaged SEDs during quiescence  Test emission models, measure physical parameters First GLAST Science Symposium: February 2007 at Stanford!

17 Jennifer Carson - GLAST17 Backup Slides

18 Jennifer Carson - GLAST18 Survey Mode: LAT Sensitivity & Exposure Point source sensitivity in survey mode Exposure comparison: Survey vs. pointed (position of Mrk 421) 100 seconds 90 minutes (1 orbit) 1 day Courtesy of J. McEnery Point source detection limit Survey mode Pointed mode Exposure Pointed Survey Time (days)Time (minutes)


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