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Uses of solar hard Xrays

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Bremsstrahlung is inefficient, and electrons 20 keV dominate flare energetics ... Standard Neupert plot for the Bastille Day 2000 flare. Another Neupert plot ... – PowerPoint PPT presentation

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Title: Uses of solar hard Xrays


1
Uses of solar hard X-rays
  • Basics of observations
  • Hard X-rays at flare onset
  • The event of April 18, 2001
  • Conclusions

ITP Santa Barbara, Jan. 18, 2002
Hugh Hudson, UCB
2
Hard X-ray basics
  • Hard X-rays come from bremsstrahlung
  • Bremsstrahlung is inefficient, and electrons gt20
    keV dominate flare energetics
  • Flare hard X-rays normally follow the Neupert
    effect
  • Footpoints (often double) are prominent

3
Basics II
  • Spectra look like power laws (may be broken)
  • Impulsive-phase hard X-rays follow the
    Soft-hard-soft pattern
  • Protons gt 10 MeV now appear to resemble electrons
    gt 20 keV energetically
  • Also see superhot hard X-rays

4
Hot
Superhot
Broken power law
E f(E)
Gamma rays
Pi decay
Broken up
?
1 keV
1 MeV
1 GeV
5
Neupert effect I
  • Standard Neupert plot for the Bastille Day 2000
    flare

6
Another Neupert plot
7
Yet another Neupert plot
8
A non-Neupert event
9
Conclusion
Energy release in the impulsive phase coincides
temporally with a distorted electron
distribution function.
10
Neupert Effect - II
  • Correlation plot for hard X-ray and soft X-ray
    peak fluxes, done for "slow LDEs"

11
A typical slow LDE, the candle flame flare
(21-Feb-92)
12
Feb. 21 has a long impulsive phase - the
Neupert effect
13
Conclusion
The impulsive phase non-thermal effects occur
in flares of all sizes and time scales.
14
Soft-hard-soft
  • The hard X-ray spectrum correlates strongly with
    the flux
  • Here are three examples
  • Plus a counterexample

15
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19
Conclusion
Soft-hard-soft spectral evolution is something
fundamental that is modelable, but which has
not yet been modeled.
20
Hard X-rays during flare onset
  • "Heating" implies a distortion of the velocity
    distribution function
  • Case study of September 24, 2001
  • Case study of October 16, 2000
  • Kappa distributions and a comment about
    Dzifcakova-Kulinova paper (Solar Physics 203, 53,
    2001)

21
The kappa distribution (Vasiliunas?) - a
typical empirical representation of particle
spectra in the heliosphere a generalized
Lorentzian
22
September 24, 2001
  • A nice flare was found by the Czech hard X-ray
    instrument on the MTI spacecraft

23
September 24, 2001
  • HXT observed a rapidly-variable source with a
    soft spectrum at the onset phase

24
Superhot temperatures
25
Rapid variability, hard X-ray excess
26
October 16, 2000
  • An over-the-limb flare with similar spectral
    properties

27
But, its a superhot spectrum with rapid time
variability
28
Conclusion
There are strong suggestions that the basic
physics of pre-flare excitation is not
heating, but rather particle acceleration
29
April 18, 2001
30
Movies
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34
Significance of April 18
  • The hard X-rays in the April 18 event reveal fast
    electrons entrained in an expanding CME structure
  • The electrons require in-situ acceleration
  • These particles are energetically important
  • They may also be dynamically important

35
Conclusions
  • Non-thermal electrons show particle acceleration
    with copious energy in the impulsive phase
  • Superhot hard X-ray spectra may point to the
    breakdown of the electron distribution function
    during preflare excitation
  • Non-thermal electrons may help drive CMEs
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