Abstract
A comparison is made between the flux-versus-time profile in the EUV band and the thick target electron flux profile as inferred from hard X-rays for a number of moderately large solar flares. This complements Kane and Donnelly's (1971) study of small flares. The hard X-ray data are from ESRO TD-1A and the EUV inferred from SFD observations.
Use of a χ2 minimising method shows that the best overall fit between the profile fine structures obtains for synchronism to ≲5 s which is within the timing accuracy. This suggests that neither conduction nor convection is fast enough as the primary mechanism of energy transport into the EUV flare and rather favours heating by the electrons themselves or by some MHD wave process much faster than acoustic waves.
The electron power deposited, for a thick target model, is however far greater than the EUV luminosity for any reasonable assumptions about the area and depth over which EUV is emitted. This means that either most of the power deposited is conducted away to the optical flare or that only a fraction ≲1–10% of the X-ray emitting electrons are injected downwards. Recent work on Hα flare heating strongly favours the latter alternative - i.e. that electrons are mostly confined in the corona.
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Emslie, A.G., Brown, J.C. & Donnelly, R.F. The inter-relationship of hard X-ray and EUV bursts during solar flares. Sol Phys 57, 175–190 (1978). https://doi.org/10.1007/BF00152053
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DOI: https://doi.org/10.1007/BF00152053