solar observation modes: commissioning and operational
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Solar observation modes: Commissioning and operational. C. Vocks and G. Mann. Spectrometer and imaging modes Commissioning proposals Operational phase Summary and outlook. 3 rd Solar KSP Workshop, 05.-06. July 2010. Use of a single LOFAR station. Station beam (70 m Ø):. - PowerPoint PPT PresentationTRANSCRIPT
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Solar observation modes:Commissioning and operational
C. Vocks and G. Mann
1. Spectrometer and imaging modes
2. Commissioning proposals
3. Operational phase
4. Summary and outlook
3rd Solar KSP Workshop, 05.-06. July 2010
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3rd Solar KSP Workshop, 05.-06. July 2010
Use of a single LOFAR station
Station beam (70 m Ø):
• Low band: > 3 deg
• High band: > 1 deg
The Sun is essentiallya point source!
Consequences:
• No imaging
• Spectral intensities as function of time Single station as spectrometer!
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3rd Solar KSP Workshop, 05.-06. July 2010
Use of several LOFAR stations
Frequency coverage:
Sample frequencies:
• 160 MHz for station V• 200 MHz otherwise
6 stations needed for full coverage
48 MHz station bandwidth:
• 1 station less for each low and high band?
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3rd Solar KSP Workshop, 05.-06. July 2010
Basic spectrometer mode
Station data processing:• Station takes samples with 200 (160) MHz rate• 1024 data points are collected, Fourier-transformed
Result:• Sub-bands of 195 (156) kHz width
• Values for complex amplitudes every 6.4 (5.1) µs
Temporal resolution of 0.01 s:• Average over complex amplitudes squared• Can be handled by a PC on the station level
Resulting data rate:• Total # of sub-bands in the LOFAR frequency range: 912
• bb = 912 * 100/s * 4B = 365 kB/s = 1.3 GB/h
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3rd Solar KSP Workshop, 05.-06. July 2010
Better spectral resolution
Higher frequency resolution:
• Fourier-transform series of sub-band samples
For 100 kHz frequency resolution:
• DFT with 2 samples sufficient
• Average again over 0.01 s
• Computational effort: About doubled
Resulting data rate:
• be = 730 kB/s = 2.6 GB/h
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3rd Solar KSP Workshop, 05.-06. July 2010
Solar imaging
Solar corona:Scattering of radio wavesResolution 40-60''
LOFAR will provide radioimages of the middle
and upper solar corona.
Baselines:
More than 20 km not neededCentral core + 1st ring
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3rd Solar KSP Workshop, 05.-06. July 2010
Commissioning proposals
Spectrometer mode:
Imaging mode:
• Spectrum of the quiet Sun
• Dynamic radio spectra
• Center-to-limb variation
• Solar imaging
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3rd Solar KSP Workshop, 05.-06. July 2010
Spectrum of the quiet Sun
Objectives:
• Quiet Sun: Thermal radiation
• I(f) = 2000 Jy * (f / 40 MHz)2
• Test use of single stations as spectrometers
Observations:
• Multiple stations cover full frequency range
• Calibration tests
• Spectral resolution 100 kHz
• RFI mitigation
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3rd Solar KSP Workshop, 05.-06. July 2010
Dynamic radio spectra
Objectives:
• Test spectrometer observing mode
• Identification of solar radio bursts Triggering
Observations:
• Multiple stations cover full frequency range
• Calibration tests
• Spectral resolution 100 kHz
• RFI mitigation
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3rd Solar KSP Workshop, 05.-06. July 2010
Center-to-limb variation
Objectives:
• Intensity variation across the solar disk
• Preparation for solar imaging
Observations:
• Scan across the solar disk
• Tied-array mode
• Multiple frequencies
• Multiple beams
• Thermal structure of the corona
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3rd Solar KSP Workshop, 05.-06. July 2010
Solar imaging
Objectives:
• Solar imaging: Sun outshines calibration sources
• Based on standard imaging
• Sun is bright, extended source
Observations:
• First observations with strong calibrators, quiet Sun
• Location of radio sources on the disk
• Snapshot imaging
• Calibration and image synthesis
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3rd Solar KSP Workshop, 05.-06. July 2010
Operational phase
Spectrometer mode:
• Runs continuously with remote andint’l stations not needed for imaging
• Covers full LOFAR frequency range
• Resolution: 100 kHz, 10 ms
Imaging modes:
• Limited resolution
• Core and nearest remote stations
• Image cadence depends on solar activity
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3rd Solar KSP Workshop, 05.-06. July 2010
LOFAR monitoring:
• Image cadence 1 min
•Selected frequencies
•Depend on available band
•Combination with: Optical images Dynamic radio spectra
Scientific objectives:
•Active region development
•Sources of radio bursts
Solar monitoring
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3rd Solar KSP Workshop, 05.-06. July 2010
Detection of radio bursts (“burst bell”):
•Record intensity on selected frequencies
•Calculate average and variance ()
• If the intensity increases by more than 5.5
Burst detected!
Response to bursts:
•Predefined series of follow-up observations,e.g. evolution of the radio source both inspace and frequency
• Alert other groups/instruments
Burst mode
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3rd Solar KSP Workshop, 05.-06. July 2010
Summary and future work
Summary:
•Single LOFAR stations: Used as spectrometer
•Solar imaging: Core + nearest remote stations
•Commissioning proposals on spectrometer and imaging
Future work:
•Right now: First solar observations
•Space weather, scintillation
•Simultaneous solar imaging in low and high band
•Operational phase: Spectrometer always on
• Image cadence dependent on solar activity