ERNE observations of energetic particles associated with Earth-directed coronal mass ejections in April and May, 1997

Anttila, Anu-Hanna; Sahla, T.

doi:10.1007/s00585-000-1373-3

Cited by 7 publications

(7 citation statements)

References 12 publications

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“…Further acceleration and/or trapping of particles may still, of course, occur further away from the Sun. A more detailed analysis of these events by Anttila & Sahla (2000) revealed that protons were injected from the CME-driven shocks up to r > ∼ 10 R during these events with spectra that had exponential roll over at energies above 15 MeV, in agreement with our calculated mean free path.…”

Section: Resultssupporting

confidence: 66%

“…Comparing the calculation to observations of small gradual particle events by Torsti et al (1998) and Anttila & Sahla (2000), we find that a preferred region of acceleration is the shell of small mean free path near the solar surface. Further diffusive acceleration by a CME-driven shock on open coronal field lines is shown to be capable of producing/maintaining power law proton spectra extending up to tens of MeVs at altitudes r < ∼ 10 R , even without waves of self-generated origin.…”

Section: Resultsmentioning

confidence: 93%

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The relation between cyclotron heating and energetic particles on open coronal field lines

Vainio

Laitinen

2001

A&A

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Abstract. Cyclotron resonance with high-frequency Alfvén waves has been proposed as an ion heating mechanism for producing high-speed winds and large ion temperatures in coronal holes. In the simplest version of the model (cyclotron sweep model), the waves propagate without interacting until they hit a resonance with the plasma ions at distance, where the ion cyclotron frequency becomes comparable to the wave frequency. We calculate the energetic test-particle mean free path λ in solar corona heated by this mechanism. The primary result of our study is that energetic particles are efficiently coupled to the high-frequency MHD waves and may, thus, provide important feed back to wave-heating models. Detailed calculations are presented for a solar-wind stream of intermediate speed driven by the cyclotron sweep mechanism applying an extended quasi-linear theory for the mean free path. A local maximum of λ is located near r = 2 R , but λ is very small at distances close to the Sun (r < 1.3 R ) helping the acceleration of particles to high energies on open coronal field lines there. Another minimum for the mean free path is obtained near r = 10 R enabling ion acceleration beyond 10 MeV/n in streams of intermediate speeds by CME shock waves in the test-particle approximation. However, the presence of high-frequency Alfvén waves in amounts required for the cyclotron sweep heating has to be limited below ∼10 R on field lines close to the ecliptic to avoid discrepancies with the inferred arrival times of solar energetic particles. Non-linear effects are discussed as a possible mechanism for removing the wave excess from the plasma.

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Section: Resultssupporting

confidence: 66%

Section: Resultsmentioning

confidence: 93%

The relation between cyclotron heating and energetic particles on open coronal field lines

Vainio

Laitinen

2001

A&A

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“…1). According to Anttila & Sahla (2000), most part of the injection occurs when the source (the CME) is above probable heights of the Alfvén speed maximum, so only a fraction of this spectrum is available to generate waves in the low coronal regions near the Alfvén speed maximum. Thus, we conclude that test particle approximation is justified for these events at energies E > 1 MeV.…”

Section: Wave Growth Between the Sun And 1 Aumentioning

confidence: 99%

“…Let us investigate whether typical small gradual events, like the 7 April and 12 May 1997, events analyzed by Anttila & Sahla (2000), are below the wave growth threshold. The time-integrated injection spectrum in both events can be given approximately by E d 2 N/(dE dΩ ) ≈ 2 × 10 32 (MeV/E) 0.8 exp(−E/15 MeV) (see Fig.…”

Section: Wave Growth Between the Sun And 1 Aumentioning

confidence: 99%

“…where d 2 N/(dE dΩ ) is the energy spectrum of protons per unit solid angle at the solar surface (in coordinate space) injected into the flux tube, which can be deconvolved from observations of SEP intensities and anisotropies (e.g., Torsti et al 1996;Anttila et al 1998;Anttila & Sahla 2000;Laitinen et al 2000). Plugging these expressions in Eq.…”

Section: Wave Growth Between the Sun And 1 Aumentioning

confidence: 99%

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On the generation of Alfvén waves by solar energetic particles

Vainio

2003

A&A

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Abstract.A simple analytical theory of Alfvén waves amplified by streaming solar energetic particles (SEPs) is studied. It is pointed out that a finite time-integrated net flux of energetic protons has to pass each point in space before we can expect Alfvén waves to be significantly modified by the streaming instability. The time-integrated net proton flux needed for the time-integrated wave growth rate (or wave growth, for short) to exceed unity is evaluated. Assuming that protons stream much faster than the waves, we evaluate the wave growth as a function of position and wavenumber for a specified proton injection energy spectrum, dN/dE. The wave growth is found to be proportional to vp dN/dE, where v and p are the particle speed and momentum, and to the local Alfvén speed V A . Thus, maximum wave growth is achieved at the location of maximum V A (at a few solar radii), and the minimum value of dN/dE required for the wave growth to exceed unity there is a few times 10 32 /vp protons per unit solid angle (in coordinate space) at the solar surface. If dN/dE is below this value, test-particle theory is a valid description of particle transport and acceleration. The value is not exceeded (above 1 MeV energies) in small gradual SEP events having peak 1-MeV proton intensities below ∼10 protons (cm 2 sr s MeV) −1 at 1 AU. The spatial and momentum dependence of the wave growth can also be used to estimate the maximum emission strength of a moving proton source in the interplanetary medium. For a strong source moving through the solar wind at constant super-Alfvénic speed, the number of escaping particles per unit time and flux-tube cross section is approximately constant in time, predicting a plateau-type timeintensity profile observed ahead of the source. The model reproduces observations of streaming-limited intensities at energies around 10 MeV and explains the double peaked injection profiles observed in large SEP events.

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Validation of a global 3D heliospheric model with observations for the May 12, 1997 CME event

Cohen

Соколов

Roussev

et al. 2008

Journal of Atmospheric and Solar-Terrestrial Physics

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ERNE observations of energetic particles associated with Earth-directed coronal mass ejections in April and May, 1997

Cited by 7 publications

References 12 publications

The relation between cyclotron heating and energetic particles on open coronal field lines

The relation between cyclotron heating and energetic particles on open coronal field lines

On the generation of Alfvén waves by solar energetic particles

Validation of a global 3D heliospheric model with observations for the May 12, 1997 CME event

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