2011
DOI: 10.5194/acpd-11-9407-2011
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Composition changes after the "Halloween" solar proton event: the High-Energy Particle Precipitation in the Atmosphere (HEPPA) model versus MIPAS data intercomparison study

Abstract: We have compared composition changes of NO, NO<sub>2</sub>, H<sub>2</sub>O<sub>2</sub>, O<sub>3</sub>, N<sub>2</sub>O, HNO<sub>3</sub>, N<sub>2</sub>O<sub>5</sub>, HNO<sub>4</sub>, ClO, HOCl, and ClONO<sub>2</sub> as observed by the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) on Envisat in the aftermath of the "Halloween" solar proton event (SPE) in October/November 20… Show more

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Cited by 35 publications
(57 citation statements)
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“…After the SPE around Halloween 2003, ClO averaged over the polar cap, the major parts of which were still illuminated, was reported by these authors to increase after the proton forcing, except for regions poleward of 70° N, where the polar vortex was dark. In these regions a ClO decrease was observed (Funke et al, 2011). The sudden increase of HOCl during this SPE, which also was observed with MIPAS data, did not only confirm SPE-induced chlorine activation but also was the first experimental evidence of accelerated HO x chemistry during an SPE.…”
Section: The Non-statement View: Chlorine Chemistry During Solar Protsupporting
confidence: 84%
“…After the SPE around Halloween 2003, ClO averaged over the polar cap, the major parts of which were still illuminated, was reported by these authors to increase after the proton forcing, except for regions poleward of 70° N, where the polar vortex was dark. In these regions a ClO decrease was observed (Funke et al, 2011). The sudden increase of HOCl during this SPE, which also was observed with MIPAS data, did not only confirm SPE-induced chlorine activation but also was the first experimental evidence of accelerated HO x chemistry during an SPE.…”
Section: The Non-statement View: Chlorine Chemistry During Solar Protsupporting
confidence: 84%
“…While the impact on stratospheric ozone levels (from SPEs only) was found to be long lasting and significant (>10% stratospheric ozone loss up to 5 months http://www.progearthplanetsci.com/content/1/1/24 past the event), the simulated long-term impacts on polar annual mean total ozone and temperature were not significant. Funke et al (2011) performed a comparison between satellite observations of atmospheric chemistry response to the 2003 October-November SPEs and the responses of nine different chemistry-climate models and chemistry-transport/general circulation models within the SOLARIS-HEPPA -Solar Influences for SPARC Model-Measurement Intercomparison (MMI) community effort. Overall, the models were found to reproduce the observed ozone loss reasonably well, but issues were identified regarding the used ionisation rates for the proton forcing in the models as well as the need to implement additional ion chemistry into the models' chemical schemes.…”
Section: Energetic Particle Precipitationmentioning
confidence: 99%
“…The enhancement of NO in the auroral zone has been observed by SNOE measurements . NO x and HO x enhancement in the mesosphere and stratosphere due to in situ ionization was detected by satellite measurements mostly during powerful precipitation events (e.g., López-Puertas et al 2005;Seppälä et al 2007b;Damiani et al 2008;Funke et al 2011;Verronen et al 2011). The enhancement of NO x in the stratosphere after substantial geomagnetic perturbation was detected by many groups (e.g., Callis et al 1998;Siskind et al 2000;Randall et al 2007;Clilverd et al 2009).…”
mentioning
confidence: 99%
“…The production of NO x and HO x by GCR has not yet been confirmed observationally due to a rather small magnitude of the enhancement in the polar upper troposphere/lower stratosphere (UTLS) region, where the effects of GCR should be the most pronounced. The ozone depletion in the polar mesosphere and stratosphere after intensive SPE was observed by different satellite instruments Seppälä et al 2007b;Funke et al 2011). Significant correlation of the surface air temperature with the level of geomagnetic activity, which is represented by the Ap index, was discovered in the reanalysis data by Seppälä et al (2009).…”
mentioning
confidence: 99%
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