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X-WR-CALNAME:MetSoc 2026 | August 9-14, Frankfurt
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X-WR-CALDESC:Events for MetSoc 2026 | August 9-14, Frankfurt
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BEGIN:VEVENT
DTSTART;TZID=Europe/London:20260809T123000
DTEND;TZID=Europe/London:20260809T170000
DTSTAMP:20260325T220007Z
CREATED:20260325T220007Z
LAST-MODIFIED:20260325T220007Z
UID:3167-1786278600-1786294800@www.metsoc2026-frankfurt.com
SUMMARY:Astromat Workshop
DESCRIPTION:This workshop aims to help researchers navigate the landscape of astromaterials sample data\, from finding and accessing lab analytical data\, to generating Open Science Data Management Plans (OSDMPs) for funding proposals\, to documenting their own lab analytical data following community best practices\, to depositing and archiving data in compliance with funders’ and journals’ policies.
URL:https://www.metsoc2026-frankfurt.com/event/astromat-workshop/
LOCATION:Jügel House\, Mertonstraße 17\, Frankfurt am Main\, 60325\, Germany
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DTSTART;TZID=Europe/London:20260809T170000
DTEND;TZID=Europe/London:20260809T190000
DTSTAMP:20260325T195952Z
CREATED:20260325T195952Z
LAST-MODIFIED:20260325T195952Z
UID:3081-1786294800-1786302000@www.metsoc2026-frankfurt.com
SUMMARY:Icebreaker
DESCRIPTION:We will meet for the icebreaker in the foyer of the Jügel House\, the left-wing of the Senckenberg Museum and Physikalischer Verein. Entering the Jügel House from the side entrance on Mertonstraße 17-21\, we will receive our conference badges and gather with friends and colleagues for a social get-together.
URL:https://www.metsoc2026-frankfurt.com/event/icebreaker/
LOCATION:Jügel House\, Mertonstraße 17\, Frankfurt am Main\, 60325\, Germany
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DTSTART;TZID=Europe/London:20260810T094500
DTEND;TZID=Europe/London:20260810T120000
DTSTAMP:20260623T203626Z
CREATED:20260623T062820Z
LAST-MODIFIED:20260623T203626Z
UID:3779-1786355100-1786363200@www.metsoc2026-frankfurt.com
SUMMARY:Micrometeorites and Interplanetary Dust Particles
DESCRIPTION:9:45 AM\nCarbon and Nitrogen Isotopic Heterogeneity of Fine-Grained Micrometeorites [#5400]\nSims R. C.* Bose M. Suttle M. D. Genge M. J. Wittmann A.  \nAnalysis of C and N isotopes in fine-grained micrometeorites show they are composed of a relatively homogeneous organic component accompanied by minor\, 15N-rich domains of primitive material\, similar to carbonaceous chondrite meteorites.\n\n\n  \n\n10:00 AM\nNovel Approach to Assess Micrometeorite Sources: Ti Isotopic Measurements on Modern Antarctic Cosmic Spherules [#5312]\nDepoortere J.* Fehr M. A. De Grave J. Krämer Ruggiu L. Thiemens M. M. et al.  \nWe present a novel approach to assess micrometeorite sources using Ti isotopes\, avoiding issues of oxygen isotope fractionation and alteration. Results show a dominant carbonaceous chondritic origin.\n\n\n  \n\n10:15 AM\nThermal Control on the Textural Evolution of Micrometeorites [#5248]\nSingh V. P.* Rudraswami N. G.  \nAtmospheric heating and undercooling govern the textural evolution of cosmic dust. Correlating entry parameters with precursor compositions reveals the exact conditions forming barred\, porphyritic\, and glassy micrometeorites.\n\n\n  \n\n10:30 AM\nIron Spherules from the Atacama Desert: Extraterrestrial or Anthropogenic? [#5376]\nMaurer B.* Fenski C. Miedtank A. Airo A. Müller M. et al. \nFe-rich spherules found in 12.9 ka-old sediments from the Atacama Desert\, Chile\, lack clear signs for extraterrestrial origin and show similarities to anthropogenic particles. We present their features and compare them with other spherules.\n\n\n  \n\n10:45 AM\nMicrometeorites from the ~500 Ma Cambrian Andrarum Limestone [#5303]\nBoschi S.* Krämer Ruggiu L. Prestgard T. J. Binu Beena D. Pesola J. et al.  \nEarth’s extraterrestrial flux (mostly micrometeorites\, MM) is reconstructed from Late Cambrian samples at Andrarum (Sweden). We confirm the ET origin with concentration of ~5MM/kg\, providing new flux constraints and paleoatmospheric composition.\n\n\n  \n\n11:00 AM\nThe Change in Cosmic Dust Flux Through the Cretaceous-Paleogene Boundary [#5122]\nMattia I. S.* Genge M. J. Suttle M. D.  \nVariations in cosmic dust flux across the Cretaceous-Paleogene boundary\, as recorded by fossil micrometeorites\, can be used to predict the sources of the dinosaur-killing asteroid and resolve its orbital dynamics prior to impact.\n\n\n  \n11:15 AM\nRaman Spectroscopy of I-Type Cosmic Spherules as a Non-Destructive Tool to Probe Terrestrial Weathering Across Micrometeorite Collections [#5319]\nPrestgard T. J.* Krämer Ruggiu L. Binu Beena D. Pesola J. Zelinsky C. et al.  \nRaman spectroscopy is used to assess terrestrial oxidation in I-type cosmic spherules from Antarctica\, the Atacama\, and Greenland\, evaluating their preservation and each region’s capacity to retain extraterrestrial materials.\n\n  \n11:30 AM\nStatistical Properties of the Antarctic Belgica Mountains Micrometeorite Collection: First Insights [#5301]\nEschrig J.* Boschi S. Tagle R. Baumann J. Pinto G. A. et al. \nWe compare size and type statistics of 9000 extraterrestrial grains picked from the Belgica Mountains\, Antarctica to the Walnumfjellet collection using a new workflow for processing large collections with µXRF\, revealing abundant airburst particles.\n\n  \n11:45 AM\nModelling Transport and Irradiation of Cosmic Dust from Interplanetary Source to Earth [#5454]\nFeige J.* Fenski C. Airo A. Patzer A. B. C.  \nWe use cosmogenic radionuclides in micrometeorites to encode their irradiation and transport histories. Comparison to our models yield probabilities for the corresponding interplanetary source regions spanning asteroidal to cometary reservoirs.
URL:https://www.metsoc2026-frankfurt.com/event/carbon-and-nitrogen-isotopic-heterogeneity-of-fine-grained-micrometeorites-5400/
LOCATION:Lecture Hall 1
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