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Stephen White Space Vehicles Directorate Air Force Research Laboratory Solar Radio Bursts with LWA-1: DRX Observations.

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Presentation on theme: "Stephen White Space Vehicles Directorate Air Force Research Laboratory Solar Radio Bursts with LWA-1: DRX Observations."— Presentation transcript:

1 Stephen White Space Vehicles Directorate Air Force Research Laboratory Solar Radio Bursts with LWA-1: DRX Observations

2 LW001: DRX data X5 flare at 01 UT on 2012 March 7

3

4 Post-flare loops: site of energy release(?) Locus of radio Type IV burst?

5 Bright radio emission

6 LW001 DRX setup: Beam 1 on Sun: filter 5, 10-15 & 15-20 MHz Beam 2 on Sun: filter 7, 15-34 & 34-52 MHz Beam 3 off Sun: filter 7, 15-34 & 34-52 MHz Beam 4 on Sun: filter 7, 52-70 & 70-88 MHz 3  2.2 TB + 0.4 TB (need 3 TB drives) Still learning …. but access time with LSL is fine

7 245 MHz light curve into LWA morning

8 Magnetic field distribution

9 Summary plot: 10-15 MHz

10 Summary plot: 15-20 MHz

11 Summary plot: 15-34 MHz 45° above Sun

12 Summary plot: 15-34 MHz on Sun

13 Summary plot: 34-52 MHz off Sun

14 Summary plot: 34-52 MHz on Sun

15 Summary plot: 52-70 MHz

16 Summary plot: 70-88 MHz

17 RFI at 15 UT off Sun

18 RFI at low elevation (solar beam)

19 RFI at 20 UT off Sun

20 RFI on Sun at local noon

21 Typical noise storm feature: Type I bursts

22 Low frequency emission: 34-52 MHz

23 Unexpected fine structure above 60 MHz

24 “Zebra” patterns more common in flares

25 Issues at high frequencies: pointing?

26 Wrigglers and zebra alternating

27 “Wrigglers” at 10 millisecond resolution

28 Wrigglers, Type I, broadband modulation

29 Polarization properties: off Sun

30 Polarization properties: on Sun

31 Circular polarization spectrum

32

33 Science with LWA-1 TBN data TBN data provide basically rapid sampling of the waveform at a fixed frequency Big push by the Sydney group (Cairns, Robinson, Li) to interpret low-frequency plasma emission with “stochastic growth theory” (SGT): electron beams are not uniformly saturated but are dominated by density fluctuations in the medium, results in marginally unstable beams with very bursty emission. SGT predicts a log-normal distribution of intensities when averaged, power-law at high time resolution Complicated for coronal work by large sources and multi-path propagation

34 Science with LWA-1 TBW data TBW data provide snapshot spectra (60 msec) every minute: basically “luck” as to which portion of a burst you get What they do is confirm spectral structure that isn’t always “believable” in dynamic spectra Existing data already indicate interesting structure: need to interpret in terms of coronal inhomogeneity and electron beam properties.

35 The

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