On Heating of Solar Corona and Acceleration of Low-Speed Solar Wind by Acoustic Waves Generated in Corona

نویسنده

  • Takeru Ken Suzuki
چکیده

We investigate possibilities of solar coronal heating by acoustic waves generated not at the photosphere but in the corona, aiming at heating in the midto low-latitude corona where the low-speed wind is expected to come from. Acoustic waves of period τ ∼ 100s are triggered by chromospheric reconnection, one model of small scale magnetic reconnection events recently proposed by Sturrock. These waves having a finite amplitude eventually form shocks to shape sawtooth waves (N-waves), and directly heat the surrounding corona by dissipation of their wave energy. Outward propagation of the N-waves is treated based on the weak shock theory, so that the heating rate can be evaluated consistently with physical properties of the background coronal plasma without setting a dissipation length in an ad hoc manner. We construct coronal structures from the upper chromosphere to the outside of 1AU for various inputs of the acoustic waves having a range of energy flux of Fw,0 = (1− 20)× 10erg cm s and a period of τ = 60 − 300s. The heating by the N-wave dissipation effectively works in the inner corona and we find that the waves of Fw,0 ≥ 2×105erg cms and τ ≥ 60s could maintain peak coronal temperature, Tmax > 10 K. The model could also reproduce the density profile observed in the streamer region. However, due to its short dissipation length, the location of Tmax is closer to the surface than the observation, and the resultant flow velocity of the solar wind is lower than the observed profile of the low-speed wind. The cooperations with other heating and acceleration sources with the larger dissipation length are inevitable to reproduce the real solar corona. Subject headings: Sun: corona — solar wind — waves

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تاریخ انتشار 2002