2016
DOI: 10.5194/angeo-34-595-2016
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Solar energetic particle interactions with the Venusian atmosphere

Abstract: Abstract. In the context of planetary space weather, we estimate the ion production rates in the Venusian atmosphere due to the interactions of solar energetic particles (SEPs) with gas. The assumed concept for our estimations is based on two cases of SEP events, previously observed in near-Earth space: the event in October 1989 and the event in May 2012. For both cases, we assume that the directional properties of the flux and the interplanetary magnetic field configuration would have allowed the SEPs' arriva… Show more

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Cited by 20 publications
(34 citation statements)
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References 74 publications
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“…Although remarkable efforts revealing the temporal evolution of SEP events can be found in the literature (see, e.g., Belov et al 2005;Bombardieri et al 2007;Plainaki et al 2007;Matthiä et al 2009;Miroshnichenko 2018, and references therein), the model efforts to study the GLE-induced atmospheric effects are often based on a mean energy spectrum. As previously discussed in Nordheim et al (2015), Plainaki et al (2016), and Herbst et al (2019a), the Venusian atmospheric ionization is significantly affected by these strong SEP events. We investigated their influence on the atmospheric absorbed dose rates.…”
Section: Investigating the Solar Cosmic-ray-induced Atmospheric Radiasupporting
confidence: 58%
“…Although remarkable efforts revealing the temporal evolution of SEP events can be found in the literature (see, e.g., Belov et al 2005;Bombardieri et al 2007;Plainaki et al 2007;Matthiä et al 2009;Miroshnichenko 2018, and references therein), the model efforts to study the GLE-induced atmospheric effects are often based on a mean energy spectrum. As previously discussed in Nordheim et al (2015), Plainaki et al (2016), and Herbst et al (2019a), the Venusian atmospheric ionization is significantly affected by these strong SEP events. We investigated their influence on the atmospheric absorbed dose rates.…”
Section: Investigating the Solar Cosmic-ray-induced Atmospheric Radiasupporting
confidence: 58%
“…The transition region around the altitude of~100 km hosts a number of peculiar phenomena such as the variable ozone layer (Montmessin et al 2011) and strong variations in air temperatures (Piccialli et al 2015). Incidentally, we note that this region is subject to high-energy deposition rates due to incoming cosmic rays during strong SEP events, as discussed by and by Plainaki et al (2016). Above the very rough level of 110 km, dissociation of molecules by UV radiation becomes important.…”
Section: Space Weather At Mars and Venusmentioning
confidence: 59%
“…SEP fluxes reaching Venus and Mars are of special interest because the atmospheres of these planets are poorly protected by the weak magnetic fields. Depending on the solar particle energy and direction, SEP events at Venus may result in increased ionization rates in the atmosphere (see estimations by Plainaki et al 2016). The NASA MAVEN mission will provide feedback on the SEP interactions with Mars' upper atmosphere and on how they have contributed to its evolution over time.…”
Section: Plasma and Magnetic Fieldsmentioning
confidence: 99%
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“…Recent theoretical and experimental studies of H 2 SO 4 -H 2 O particle formation have developed state-of-the-art descriptions of the homogeneous and ion-induced particle formation processes , enabling their application to Venus. Modelling of ionization in Venus' atmosphere indicates a significant level of ionization at the cloud formation altitudes around 70 km (Michael et al 2009;Plainaki et al 2016). Many models have considered heterogeneous nucleation on soluble or insoluble particles (James et al 1997).…”
Section: Stratospheric Clouds On Earth and Venusmentioning
confidence: 99%