During the first orbit around Jupiter of the NASA/Juno mission, the Jovian Auroral InfraredMapper (JIRAM) instrument observed the auroral regions with a large number of measurements. Themeasured spectra show both the emission of the H+3ion and of methane in the 3-4 ?m spectral region.In this paper we describe the analysis method developed to retrieve temperature and column density(CD) of the H+3ion from JIRAM spectra in the northern auroral region. The high spatial resolution of JIRAMshows an asymmetric aurora, with CD and temperature ovals not superimposed and not exactly locatedwhere models and previous observations suggested. On the main oval averaged H+3CDs span between1.8 × 1012cm-2and 2.8 × 1012cm-2, while the retrieved temperatures show values between 800 and 950 K.JIRAM indicates a complex relationship among H+3CDs and temperatures on the Jupiter northern aurora.
Preliminary JIRAM results from Juno polar observations: 1. Methodology and analysis applied to the Jovian northern polar region
Dinelli;Moriconi;
2017
Abstract
During the first orbit around Jupiter of the NASA/Juno mission, the Jovian Auroral InfraredMapper (JIRAM) instrument observed the auroral regions with a large number of measurements. Themeasured spectra show both the emission of the H+3ion and of methane in the 3-4 ?m spectral region.In this paper we describe the analysis method developed to retrieve temperature and column density(CD) of the H+3ion from JIRAM spectra in the northern auroral region. The high spatial resolution of JIRAMshows an asymmetric aurora, with CD and temperature ovals not superimposed and not exactly locatedwhere models and previous observations suggested. On the main oval averaged H+3CDs span between1.8 × 1012cm-2and 2.8 × 1012cm-2, while the retrieved temperatures show values between 800 and 950 K.JIRAM indicates a complex relationship among H+3CDs and temperatures on the Jupiter northern aurora.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
