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Andreas Horneffer for the LOFAR Cosmic Ray KSP

Radboud University Nijmegen. Air Shower Measurements with LOFAR. Andreas Horneffer for the LOFAR Cosmic Ray KSP. LOFAR for Cosmic Rays. designed as an astronomical telescope not an air shower detector: “small” stations with lots of antennas in a small area

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Andreas Horneffer for the LOFAR Cosmic Ray KSP

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  1. Radboud University Nijmegen Air Shower Measurements with LOFAR Andreas Horneffer for the LOFAR Cosmic Ray KSP

  2. LOFAR for Cosmic Rays • designed as an astronomical telescope not an air shower detector: • “small” stations with lots of antennas in a small area • different baselines between stations • consequences: • low effective area for the number of antennas • high sensitivity • very good calibration • this makes LOFAR an unique tool to study air showers: • Develop the method (triggering, reconstruction) • Understand the emission process • Air shower physics (new particles?) • Change galactic→extragalactic cosmic rays

  3. Radio Signature of Air Showers • random arrival times and directions • can ignore (man made) pulses from the horizon • broad-band, short time pulse (~10ns) • limited illuminated area on the ground • depending on primary energy • curvature of radio front • similar (but not identical) to point source in few km height • coincident with other air shower signs • e.g. particle front

  4. LOFAR-CREnergy Ranges Triggering on beam-formed data Triggering on single-channel data

  5. VHECR-TriggeringStation View

  6. VHECR-TriggeringCentral Processor View

  7. HECR-TriggeringCentral Processor View

  8. VHECR Trigger I • runs on the FPGAs of the TBBs • pulse detection for single channels • digital Filtering of some RFI (IIR-filters) • peak detection • calculation of pulse parameters (position, height, width, sum, avg. before, avg. after) • peak detected if: |xi| > μi + k1σi • can be simplified to: |xi| > k2μi

  9. Transient Buffer Boards • one TBB for 16 channels • one FPGA for 4 channels • larger FPGA allows 3 IIR filters plus peak detection per channel

  10. VHECR Trigger II • TBBs send “trigger messages” to station LCU • coincidence trigger at station level • filtering of “bad” pulses • coincidence detection • (direction fit) • data dump if pulse is found • stations send messages to CEP • dump more (all) stations for large events

  11. LOFARTest Measurements • one 48 antenna station and three 16 antenna stations already in the field • two stations equipped with two TBBs each • 64 channels available • read out with low-level tools • dump to “raw dump” files • read in of raw-files or conversion to new file format

  12. LOFAR Dynamic Spectrum

  13. IIR Filtering No Filtering

  14. IIR Filtering Filter at 88 MHz (FM-transmitter)

  15. IIR Filtering Filter at 15 MHz (sw-band)

  16. IIR Filtering Filters at 15 MHz and 88 MHz

  17. Filtering results • filtering of FM-transmitter increases SNR • short-wave band filtering increases stability of SNR

  18. LASALOFAR Air Shower Array • small particle detector array for triggering and additional data • main goal: proof that we indeed detect air showers • Needed to convince the cosmic ray community! • 5 stations with 4 scintillators each • around/inside the LOFAR “super-station” • main challenge: RFI shielding

  19. LASALayout

  20. Summary • LOFAR is an unique tool for air shower measurements: • high sensitivity • excellent calibration • measure in two modes: • HECR: trigger on beam-formed data • VHECR: trigger on single channel data • all digital triggering for VHECR: • filtering, peak detection, and pulse parameter determination in FPGA • coincidence trigger at station level • 2nd level coincidence to trigger additional stations • small particle detector array

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