Burkhardt, C.; Borg, L. E.; Brennecka, G. A.; Shollenberger, Q. R.; Dauphas, N.; Kleine, T.: A nucleosynthetic origin for the Earth’s anomalous 142Nd composition. Nature 537, pp. 394 - 398 (2016)
Hopp, T.; Fischer-Gödde, M.; Kleine, T.: Ruthenium stable isotope measurements by double spike MC-ICPMS. J. Anal. At. Spectrom. 31 (7), pp. 1515 - 1526 (2016)
Brennecka, G. A.; Budde, G.; Kleine, T.: Uranium isotopic composition and absolute ages of Allende chondrules. Meteoritics and Planetary Science 50, pp. 1995 - 2002 (2015)
Budde, G.; Kruijer, T. S.; Fischer-Gödde, M.; Irving, A. J.; Kleine, T.: Planetesimal differentiation revealed by the Hf-W systematics of ureilites. Earth and Planetary Science Letters 430, pp. 316 - 325 (2015)
Cook, D. L.; Kruijer, T. S.; Leya, I.; Kleine, T.: Reply to comment by Peters et al. (2015) on "Cosmogenic 180W variations in meteorites and re-assessment of a possible 184Os-180W decay system". Geochimica et Cosmochimica Acta 169, pp. 240 - 243 (2015)
Fischer-Gödde, M.; Burkhardt, C.; Kruijer, T. S.; Kleine, T.: Ru isotope heterogeneity in the solar protoplanetary disk. Geochimica et Cosmochimica Acta 168, pp. 151 - 171 (2015)
Matthes, M.; Fischer-Gödde, M.; Kruijer, T. S.; Leya, I.; Kleine, T.: Pd-Ag chronometry of iron meteorites: Correction of neutron capture-effects and application to the cooling history of differentiated protoplanets. Geochimica et Cosmochimica Acta 169, pp. 45 - 62 (2015)
Nimmo, F.; Kleine, T.: Early Differentiation and Core Formation. Washington DC American Geophysical Union Geophysical Monograph Series 212, pp. 83 - 102 (2015)
Touboul, M.; Sprung, P.; Aciego, S. M.; Bourdon, B.; Kleine, T.: Hf-W chronology of the eucrite parent body. Geochimica et Cosmochimica Acta 156, pp. 106 - 121 (2015)
Burkhardt, C.; Hin, R. C.; Kleine, T.; Bourdon, B.: Evidence for Mo isotope fractionation in the solar nebula and during planetary differentiation. Earth and Planetary Science Letters 391, pp. 201 - 211 (2014)
Cook, D. L.; Kruijer, T. S.; Leya, I.; Kleine, T.: Cosmogenic 180W variations in meteorites and re-assessment of a possible 184Os-180W decay system. Geochimica et Cosmochimica Acta 140, pp. 160 - 176 (2014)
Kruijer, T. S.; Kleine, T.; Fischer-Gödde, M.; Burkhardt, C.; Wieler, R.: Nucleosynthetic W isotope anomalies and the Hf-W chronometry of Ca-Al-rich inclusions. Earth and Planetary Science Letters 403, pp. 317 - 327 (2014)
Kruijer, T. S.; Touboul, M.; Fischer-Gödde, M.; Bermingham, K. R.; Walker, R. J.; Kleine, T.: Protracted core formation and rapid accretion of protoplanets. Science 344, pp. 1150 - 1154 (2014)
Hans, U.; Kleine, T.; Bourdon, B.: Rb-Sr chronology of volatile depletion in differentiated protoplanets: BABI, ADOR and ALL revisited. Earth and Planetary Science Letters 374, pp. 204 - 214 (2013)
Hin, R. C.; Burkhardt, C.; Schmidt, M. W.; Bourdon, B.; Kleine, T.: Experimental evidence for Mo isotope fractionation between metal and silicate liquids. Earth and Planetary Science Letters 379, pp. 38 - 48 (2013)
Kruijer, T. S.; Fischer-Gödde, M.; Kleine, T.; Sprung, P.; Leya, I.; Wieler, R.: Neutron capture on Pt isotopes in iron meteorites and the Hf-W chronology of core formation in planetesimals. Earth and Planetary Science Letters 361, pp. 162 - 172 (2013)
Kruijer, T. S.; Sprung, P.; Kleine, T.; Leya, I.; Wieler, R.: The abundance and isotopic composition of Cd in iron meteorites. Meteoritics and Planetary Science 48, pp. 2597 - 2607 (2013)
Sprung, P.; Kleine, T.; Scherer, E. E.: Isotopic evidence for chondritic Lu/Hf and Sm/Nd of the Moon. Earth and Planetary Science Letters 380, pp. 77 - 87 (2013)
How does our star heat its outer atmosphere, the solar corona, to unimaginable temperatures of up to 10 million degrees Celsius? With unprecedented observational data from ESA's Solar Orbiter spacecraft and powerful computer simulations, ERC starting grant awardee Pradeep Chitta intends to bring new momentum to the search for the coronal heating mechanism.
The research group “Solar Lower Atmosphere and Magnetism” (SLAM) studies the conditions and dynamic processes in the atmospheric layer between the solar surface (photosphere) and the overlying chromosphere, an approximately 2000 km thick gas layer.
The main research fields of the department "Sun and Heliosphere" are covered by the research groups "Solar and Stellar Coronae", "Solar Lower Atmosphere and Magnetism", "Solar and Stellar Magnetohydrodynamics" and "Solar Variability and Climate".