2020
DOI: 10.1007/s11214-020-00732-4
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Studying the Composition and Mineralogy of the Hermean Surface with the Mercury Radiometer and Thermal Infrared Spectrometer (MERTIS) for the BepiColombo Mission: An Update

Abstract: Launched onboard the BepiColombo Mercury Planetary Orbiter (MPO) in October 2018, the Mercury Radiometer and Thermal Infrared Spectrometer (MERTIS) is on its way to planet Mercury. MERTIS consists of a push-broom IR-spectrometer (TIS) and a radiometer (TIR), which operate in the wavelength regions of 7-14 μm and 7-40 μm, respectively. This wavelength region is characterized by several diagnostic spectral signatures: the Christiansen feature (CF), Reststrahlen bands (RB), and the Transparency feature (TF), whic… Show more

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Cited by 50 publications
(49 citation statements)
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References 160 publications
(167 reference statements)
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“…Although MESSEN-GERʼs compositional data acquired from orbit called into question previous models of the planetʼs formation and evolution, only in situ geochemical measurements will enable us to test new hypotheses. BepiColombo is positioned to add to our compositional knowledge (Rothery et al 2020), in particular by improving coverage of elemental compositional measurements over the southern hemisphere and better characterizing silicate mineralogy using orbital thermal infrared imaging spectroscopy (e.g., Hiesinger et al 2020). Yet, direct in situ elemental and mineralogical measurements on Mer-curyʼs surface are essential to address the new science questions that have arisen since MESSENGER.…”
Section: Goal 1: Geochemistrymentioning
confidence: 99%
“…Although MESSEN-GERʼs compositional data acquired from orbit called into question previous models of the planetʼs formation and evolution, only in situ geochemical measurements will enable us to test new hypotheses. BepiColombo is positioned to add to our compositional knowledge (Rothery et al 2020), in particular by improving coverage of elemental compositional measurements over the southern hemisphere and better characterizing silicate mineralogy using orbital thermal infrared imaging spectroscopy (e.g., Hiesinger et al 2020). Yet, direct in situ elemental and mineralogical measurements on Mer-curyʼs surface are essential to address the new science questions that have arisen since MESSENGER.…”
Section: Goal 1: Geochemistrymentioning
confidence: 99%
“…5.2). MERTIS (Hiesinger et al 2020, this journal) will allow sensing the atmosphere from the top to an altitude of about 60 km above the surface, just within the upper cloud deck. It will also be able to detect mid-infrared thermal emissions from the cloud top level at daytime, and from below the cloud top at nighttime.…”
Section: Aerosols and Cloudsmentioning
confidence: 99%
“…manuscript submitted to JGR Planets nels (Spectrometer Channels/TIS) and from 7 µm to 40 µm (1429 cm −1 to 250 cm −1 ) with 2 channels (Radiometer Channels/TIR) (Hiesinger et al, 2010;Hiesinger et al, 2020).…”
Section: Accepted Articlementioning
confidence: 99%
“…In October 2018, the BepiColombo spacecraft was launched to investigate Mercury. Onboard the spacecraft is the MErcury Radiometer and Thermal Infrared Spectrometer (MERTIS), which will explore Mercury's surface in the mid-IR (Hiesinger et al, 2010(Hiesinger et al, , 2020. The goals of MERTIS are studying and mapping the surface mineralogy as well as the thermal inertia (Hiesinger et al, 2010).…”
mentioning
confidence: 99%
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