Determination of enhancement in D-region electron density using solar flare model and GOES- 7 measurements
This investigation elucidates the enhancement of production of electrons in the ionospheric D region by soft solar X-ray flares. A simple solar X-ray flare model is established for the purpose of this study. The in-step variation of calculated enhanced electron densities with measured values of e...
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| Main Authors: | , |
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| Format: | Article |
| Published: |
2005
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| Online Access: | http://journalarticle.ukm.my/1432/ http://www.ukm.my/jkukm/index.php/jkukm |
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| Institution: | Universiti Kebangsaan Malaysia |
| Summary: | This investigation elucidates the enhancement of production of electrons in the
ionospheric D region by soft solar X-ray flares. A simple solar X-ray flare model is
established for the purpose of this study. The in-step variation of calculated enhanced
electron densities with measured values of enhanced flux intensities obtained by the
GOES7 X-ray detector is understood quantitatively by the difference of arrival time of
the maximum enhanced electron density with the arrival time maximum enhanced
flux intensity i.e., the arrival time lag. This is compared with time lag taken from the
X-ray flare model under the condition that the enhanced the electron densities are
much smaller than electron density in a quiet state. The comparison of theoretical time
lag or the response rate shows a good agreement with that obtained by measurements.
By using this model, physical quantities such as the decreasing slope coefficient of
flare model b( , z) are described in detail to identify their effects to enhanced electron
densities. Good or poor in-step variation of enhanced electron densities to enhanced
flux intensities through their increasing, maximum and decreasing stage is mostly
dependent on fundamental physical quantities b( , z), by evaluation of the response
rate. Time lag, which is inversely proportional to b( , z), shows good response. The
temporal variation of b( , z) is also studied. This result can also be applied to
disturbance phenomena that have a similar form |
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