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Terrestrial Gamma-Ray Flashes (TGFs) Observed with Fermi-GBM G. J. Fishman 1, M. S. Briggs 2, and V. Connaughton 2 -for the GBM TGF Team 1 NASA-Marshall Space Flight Center Huntsville, AL USA 2 Univ. Alabama in Huntsville Huntsville, AL USA Thunderstorms and Elementary Particle Acceleration (TEPA 2010) Nor Amberd, Armenia 6-11 September 2010 ( -for TEPA Web site posting)
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TGFs - Overview & Some New Results History; Spacecraft observations Observations from Fermi-GBM Future Space Missions
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Observations of TGFs with Four Spacecraft: I.BATSE /Compton Observatory: 1991-2000 II.Solar Spectroscopic Imager III.AGILE Gamma-ray Telescope IV.Gamma-ray Burst Monitor (GBM) on the Fermi Gamma-ray Space Telescope (this talk)
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I.Burst and Transient Source Experiment (BATSE) - Compton Observatory (CGRO) 1991-2000
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BATSE TGFs: Determined rough spectral properties (extremely energetic) Associated with thunderstorms Observed 78 in 9 years
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TGFs from BATSE (showing saturation at ~300,000 cps)
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II. RHESSI (Ramaty High-Energy Solar Spectroscopic Imager) - Solar Observatory - Launched 2002; currently operational
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Time Profiles of some RHESSI TGFs: RHESSI Observations of TGFs: Doesn’t require trigger; all data are transmitted Detected many more TGFs than BATSE, but they were much weaker Determined very hard spectra (> 20 MeV)
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SAA Region Hi Bkgnd - Low Sensitivity Region High Background, Low Sensitivity Region Map of RHESSI TGFs (820 events)
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GLOBAL FLASH RATE – ANNUAL (from LIS-TRMM data) H. Christian et al.
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Large CsI Scintillator Can Detect TGFs III. AGILE - Italian Gamma-ray Astronomy Satellite - 100kg Experiment - Launched: April 2007
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Launched June 11, 2008 NASA Kennedy Space Center Fermi Gamma-Ray Space Telescope IV. GBM (Gamma-ray Burst Monitor)
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GBM Detector Locations on the Fermi Spacecraft – Launched June 2008 BGO Det. (1 of 2) NaI Det. (3 of 12)
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GBM (Gamma-ray Burst Monitor) on the Fermi Observatory - Launched June 11, 2008 - Primary Objective: GRBs Fermi Gamma-Ray Space Telescope
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Gamma-Ray Burst Monitor (GBM) Sodium Iodide (NaI) Detectors (12) 1.27 cm thick 12.7 cm dia. 8 keV to 1 MeV
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GBM Bismuth Germinate (BGO) Detectors (2) 12.7 cm thick 12.7 cm dia. 150 keV to 45 MeV
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Gamma-ray Energy Chan. (~1 MeV max.) milliseconds (rel. to trigger time) TGF NaI Detectors (all 12 combined) “Overflow” Chan. (127)
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7 1 45 40 20 7 5.5 4.2 2.0 1.3 0.3 45 40 20 7 5.5 4.2 2.0 1.3 0.3 MeV Spectral Differences TGF #1: Low energies dominate TGF #7: High energies dominate MeV
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6 of the fastest TGFs Risetimes & Falltimes ~7 μs to 15 μs (4 μs per bin) (400 μs, total span}
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Narrowest Pulse seen with GBM, ~ 50 μs Two Well-separated, Double-Pulse TGFs seen with GBM (all detectors summed)
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Fermi – GBM Locations of 85 TGFs
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TGF & Lightning are usually Simultaneous
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How simultaneous? Distribution of GBM TGF peaks - WWLLN sferic peaks.
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2 Exceptions: Of 15 associated sferics (5 ms, 300 km), 2 are not consistent with being simultaneous with the TGF pulse Difference: ~few ms. Lightning sferic TGF
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TGF & Lightning - Summary Simultaneous, no preferred order GBM detects gamma-ray TGFs within 300 km of sub-spacecraft. We need other VLF data to explore shape, size of sferics (Duke, Stanford, LASA groups).
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Triggered TGF Rate in GBM: ~1/mo., prior to 11 Nov. 2010 ~8/mo., after “ “
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Median TGF Pulse Duration = 0.11ms - Does not include 5 longer “electron” TGFs - Solid column – includes 10 possible un-resolved pulses Pulse Durations of First 50 GBM TGFs
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Electron TGFs: No Storm in Region Below Spacecraft Below Spacecraft Geomagnetic Conjugate Region
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Five “Electron” TGFs (in the first 50) Characteristics: Longer than usual Fast rise, then decaying Some are not over thunderstorms
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31 Long “Electron” TGF
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August 2010 – Implemented “un-triggered” TGF capability Over selected “America’s Region”: - RHESSI TGFs - RHESSI TGFs, May-November est.: ~several TGFs per day in this Reion
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First look at a GBM an Un-triggered TGF Binned Data 20μs/bin TGF Full-Width: ~0.25ms Total cts above bkgnd: ~35 cts Peak ct. rate: ~20kcps (Spectrum appears similar to strong TGFs)
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TGFs – Major Observational Questions: Altitude of origin? Extent & volume of the emitting region? Beaming properties of the emission? What is the intensity distribution of TGFs ? Are TGFs related to Gigantic Blue Jets ?
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Plot by M. Briggs TGF #5, Individual Detectors, 0.1ms bins NaI (12) BGO (2)
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TGF #1, Individual Detectors, 0.1ms bins
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Time Profiles – All Detectors Combined Energies of Single Counts - BGO Detectors Only Properties of 10 Short TGF Pulses
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Four Longer TGF Pulses (~1-3 ms) Time Profiles – All Detectors Combined Energies of Single Counts - BGO Detectors Only
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Overlapping Double Pulses - 3 in the first 50 TGFs (~7 others are less obvious)
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Overlapping Double Pulses - 3 in the first 50 TGFs (~7 others are less obvious)
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NaI (12) BGO (2) TGF #1, Individual Detectors, 0.1ms bins
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Plot by M. Briggs TGF #5, Individual Detectors, 0.1ms bins NaI (12) BGO (2)
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Fermi – GBM Locations of 85 TGFs
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GBM TGF Papers - 2010 ➡ “First Results on Terrestrial Gamma-ray Flashes from the Fermi Gamma-ray Burst Monitor”, M. S. Briggs, et al., JGR ➡ “Associations between Fermi GBM Terrestrial Gamma-ray Flashes and sferics from the WWLLN”, V. Connaughton, et al., in press, JGR ➡ “Temporal Properties of Terrestrial Gamma-ray Flashes from the Gamma-ray Burst Monitor on the Fermi Observatory”, G. J. Fishman, submitted to JGR ➡ “Positrons observed from Terrestrial Lightning with Fermi GBM”, M. S. Briggs, et al., in preparation Complete list of Huntsville Gamma-Ray Team Publications: http://gammaray.nsstc.nasa.gov/publications/tgf_journal.html
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TGF Simulation - Courtesy J. Dwyer, Florida Tech. Gamma-rays (red); Electrons (blue) 200 150 100 50 20 Altitude (km) -200 -100 0 100 200 Horizontal Distance (km)
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Future Spacecraft to Study TGFs: Firefly – NSF cubesat; GSFC; Siena College ASIM – on ISS; ESA, led by Danish TIRANIS – French & others CHIBIS-M – Russian (IKI) & others
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