Our solar system formed 4.6 Ga ago from a collapsing cloud of interstellar gas and dust. Questions about the very origin of our Earth and planets - and the prospect of detecting Earth-like, potentially life-harbouring planets - are of tremendous public and scientific interest. The most important and critical step in building the Earth and other planets was probably the coalescence of planetesimals out of dust in the first few million years of our solar system’s existence.
The mechanisms and rates involved in this step can be revealed by analysing material left over from this growth process and accessible as meteorites or cometary dust samples returned by the STARDUST mission. The Priority Programme aims to initiate and provide the means for comprehensive and interdisciplinary studies on key aspects of planetesimal formation in the early solar system. The Priority Programme is particularly timely due to the new research opportunities provided by the availability of extraterrestrial materials and new analytical technology, combined with a dramatic increase in planned space missions by nations around the world.
The Priority Programme will crosslink both established and young research groups and will provide training and education opportunities for promising young scientists. The research is of national strategic importance, as it will maintain our national capability of analysing extraterrestrial material from future sample return missions.

DFG Programme Priority Programmes

International Connection Austria, France, Japan, Netherlands, Sweden, Switzerland, USA

• 10Be-10B systematics of chondrules and refractory objects in primitive chondrites (Applicant Trieloff, Mario )
• Abundances and distribution of volatile trace elements in chondritic meteorites and their components (Applicant Wombacher, Frank )
• Activity of aqueous fluids in the early solar system - characterization and formation timescales of the earliest water-bearing phases in chondritic samples (Applicants Bischoff, Addi ;  Vollmer, Christian )
• Chemical evolution of planetesimal cores during the early history of the solar system (Applicant Rubie, David )
• Chemical zoning in pristine objects of chondrites as archive of the thermal and redox history in the early solar nebula and planetesimals (Applicants Dohmen, Ralf ;  Schertl, Hans-Peter )
• Chondrule formation: Nebular gas confinement of impact splashes (Applicant Dullemond, Cornelis Petrus )
• Combined TEM, NanoSIMS, Synchrotron XRF and STXM study of presolar grains and surrounding pristine matrix mineralogy with special emphasis on Acfer 094 and ALH77307 (Applicant Brenker, Frank Erich )
• Conditions, timescales and cosmochemical evolution during the early accretion of terrestrial planets (Applicant Rubie, David )
• Coordination Funds (Applicant Trieloff, Mario )
• Crystal chemistry of hibonite as indicator for oxygen fugacities during solar nebula condensation (Applicants Boffa Ballaran, Tiziana ;  Langenhorst, Falko )
• Determination of mercury isotope compositions in chondritic meteorites (Applicant Wombacher, Frank )
• Development and physical reason of IR spectral features during condensation and solid phase reactions of Fe-Mg silicate systems: IR studies focused on non-stoichiometric silicates (Applicants Dohmen, Ralf ;  Gail, Hans-Peter ;  Pucci, Annemarie ;  Tamanai, Akemi )
• Direct detection of Jovian planets around young solar analogs and their atmospheres (Applicant Neuhäuser, Ralph )
• Dust from Supernovae in the Solar Nebula: An Integrated Nano- and Microanalytical Approach (Applicants Hoppe, Peter ;  Vollmer, Christian )
• Early evolution of meteorite parent bodies - Hf-W and U-Pb ages of zircons, baddeleyites, and phosphates (Applicant Bischoff, Addi )
• Evolution of decimeter bodies - The missing link in planetesimal formation (Applicant Teiser, Jens )
• Evolution of the Early Solar Nebula: Isotopic Fractionation and Dynamical Processes (Applicant Semenov, Dmitry )
• Experimental investigation of the formation of accretionary rims around chondrules and the formation of chondrite parent bodies (Applicant Blum, Jürgen )
• Experimental study using containerless laser melting of silicates with respect to understanding chondrule formation (Applicant Pack, Andreas )
• Formation of GEMS from interstellar silicate dust (Applicant Huisken, Friedrich )
• Gravoturbulent Planetesimal Formation in the Early Solar System (Applicant Klahr, H. Hubertus )
• Heavy p-process nuclides in early solar system materials (Applicant Münker, Carsten )
• Hf-W chronology of early solar system processes (Applicant Scherer, Erik )
• High-temperature chondrule accretion in primitive chondrites and its relevance for theories of chondrule formation and planetary accretion (Applicant Metzler, Knut )
• Highly siderophile element and chromium isotopic variations in physically separated components of carbonaceous and ordinary chondrites (Applicant Becker, Harry )
• I-Xe and Ar-Ar chronology of enstatite chondrite and enstatite achondrite parent bodies in the Early Solar System (Applicant Hopp, Jens )
• Identification of volatility-controlled refractory lithophile element fractionation on asteroidal and planetary scale (Applicant Pack, Andreas )
• Isotope anomalies in meteoritic materials and the dynamical evolution of the solar nebula: Constraints from Cr, Ti and O isotopes (Applicant Kleine, Thorsten )
• Lu-Hf systematics of early solar system materials (Applicant Scherer, Erik )
• Measurement of high-temperature optical constants of solar-nebula minerals (Applicant Mutschke, Harald )
• Metal-related mineral assemblages as probes into protoplanetary gas-solid interactions (Applicant Harries, Dennis )
• Mineralogical, REE and 146Sm-142Nd isotopic systematics of the earliest solar condensates in unequilibrated Enstatite chondrites (Applicant Goresy, Ahmed El )
• Modelling the internal constitution and thermal evolution of planetesimals and applications to geochronology (Applicant Gail, Hans-Peter )
• Molybdenum isotope anomalies in fine-grained refractory inclusions from Allende and Vigarano (Applicant Kruijer, Thomas )
• Nucleosynthetic sources and the age of the solar system: U isotope variations in meteorite components (Applicant Weyer, Ph.D., Stefan )
• Observations of Planet Embryos and their Collision Fragments (Applicant Harris, Alan )
• Origin of iron meteorites - the oldest materials in the Solar System (Applicant Zipfel, Jutta )
• Origin of volatile element depletion in the Earth (Applicants Holzheid, Astrid ;  Palme, Herbert )
• Pebble Dynamics and Accretion Processes near planetary Embryos (Applicant Kley, Wilhelm )
• Photophoretic motion of chondrules, CAIs and large bodies in the Solar Nebula (Applicant Wurm, Gerhard )
• Planetesimal accretion timescales inferred from Hf-W chronometry (Applicant Kleine, Thorsten )
• Pre-exposure to cosmic rays of chondrules and Ca-, Al-rich inclusions (Applicant Ott, Ulrich )
• Primordial noble gases in micrometeorites and interplanetary dust (Applicant Ott, Ulrich )
• Properties of Interstellar Dust Grains (Applicant Blum, Jürgen )
• Quantitative study of microstructures and microtextures of Ol-Diogenites (Harzburgites and Dunites). Eyewitnesses of early mantle processes in Vesta-like asteroids (Applicant Brenker, Frank Erich )
• Short-lived nuclide systems in sulfides from enstatite chondrites (Applicant Trieloff, Mario )
• Simulation of high speed capture of interstellar grains (Applicants Srama, Ralf ;  Trieloff, Mario )
• Synchrotron radiation induced nano-X-ray fluorescence analyses (nano-SXRF) and nano-X-ray diffraction (nano-SXRD) applied on contemporary interstellar dust particles (Applicant Brenker, Frank Erich )
• TEM Analysis on Wild2 cometary dust particles and impact tracks in aerogel: searching for relict structures of hydrous mineral phases (Applicant Brenker, Frank Erich )
• The Distribution and Inventory of Stardust Grains in Primitive Solar System Materials: Implications from Isotopic, Elemental and Petrologic Studies of Meteorites and Cometary Dust (Applicant Leitner, Jan )
• The formation zone of Jupiter-like planets - full young planetary systems (Applicant Neuhäuser, Ralph )
• The Influence of Mantle Rheology on the Early Differentiation of Icy Satellites (Applicant Boffa Ballaran, Tiziana )
• The Inventory of Stardust Grains in the Solar Nebula - Implications from Isotopic and Petrologic Studies of Primitive Solar System Materials (Applicants Hoppe, Peter ;  Zipfel, Jutta )
• The Origin of Metal and Chondrules in CH and CB Chondrites - Evidence from Fe, Ni and Mg isotopes (Applicants Weyer, Ph.D., Stefan ;  Zipfel, Jutta )
• The role of water in the process of planet formation (Applicant Dullemond, Cornelis Petrus )
• Thermo-chemical evolution of ice-silicate bodies: Application to Ceres (Applicant Breuer, Doris )
• Tidal stimulation of the formation of the outer planets (Applicant Kroupa, Pavel )
• Timescales and mechanisms of hydration of primitive amorphous silicates in the early solar system: implications for the evolution of water and the role of organics (Applicant Le Guillou, Corentin )
• Young transiting planets (Applicants Neuhäuser, Ralph ;  Redmer, Ronald )

Spokespersons Professor Dr. Klaus Mezger; Professor Dr. Mario Trieloff