Coherent-phase or random-phase acceleration of electron beams in solar flares

Details Coherent-phase or random-phase acceleration of electron beams in solar flares Coherent-phase or random-phase acceleration of electron beams in solar flares

Aug 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994apj...431..432a&link_type=abstract

The Astrophysical Journal, Part 1, vol. 431, no. 1, p. 432-449

Astronomy and Astrophysics

Astronomy

29

Electron Beams, Magnetohydrodynamics, Particle Acceleration, Plasma Waves, Solar Flares, Solar X-Rays, Phase Coherence, Radio Astronomy, Radio Emission, Solar Radio Bursts, Wave Propagation

Scientific paper

Time structures of electron beam signatures at radio wavelengths are investigated to probe correlated versus random behavior in solar flares. In particular we address the issue whether acceleration and injection of electron beams is coherently modulated by a single source, or whether the injection is driven by a stochastic (possibly spatially fragmented) process. We analyze a total of approximately = 6000 type III bursts observed by Ikarus (Zurich) in the frequency range of 100-500 MHz, during 359 solar flares with simultaneous greater than or = 25 keV hard X-ray emission, in the years 1890-1983. In 155 flares we find a total of 260 continuous type III groups, with an average number of 13 +/- 9 bursts per group, a mean duration of D = 12 +/- 14 s, a mean period of P = 2.0 +/- 1.2 s, with the highest burst rate at a frequency of nu = 310 +/- 120 MHz. Pulse periods have been measured between 0.5 and 10 s, and can be described by an exponential distribution, i.e., N(P) varies as e -P/1.0s. The period shows a frequency dependence of P(nu)=46(exp-0.6)MHzs for different flares, but is invariant during a particular flare. We measure the mean period P and its standard deviation sigma p in each type III group, and quantify the degree of periodicity (or phase-coherence) by the dimensionless parameter sigma pP. The representative sample of 260 type III burst groups shows a mean periodicity of sigma p/P = 0.37 +/- 0.12, while Monte Carlo simulations of an equivalent set of truly random time series show a distinctly different value of sigma pP = 0.93 +/- 0.26. This result indicates that the injection of electron beams is coherently modulated by a particle acceleration source which is either compact or has a global organization on a timescale of seconds, in contrast to an incoherent acceleration source, which is stochastic either in time or space. We discuss the constraints on the size of the acceleration region resulting from electron beam propagation delays and from Alfvenic synchronization during a pulse period. We discuss two periodic processes in flares, which potentially control quasi-periodic particle acceleration: (1) MHD oscillations, and (2) current sheets with oscillatory dynamics.

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