Project

General

Profile

publications

2015

  • Miljković, K., Wieczorek, M. A., Collins, G.S., Solomon, S.C., Smith, D.E., Zuber, M.T. (2015) Excavation of the mantle in basin-forming events on the Moon, Earth Planet. Sci. Lett, 409, 243–251, doi: 10.1016/j.epsl.2014.10.041.

2014

  • Bland P. A., Collins G. S., Davison T. M., Abreu N. M., Ciesla F. J., Muxworthy A. R., and Moore J. (2014) Pressure–temperature evolution of primordial solar system solids during impact-induced compaction. Nature Communications 5:5451. doi: 10.1038/ncomms6451
  • Davison T. M., Cielsa F. J., Collins G. S., Elbeshausen D., (2014) The effect of impact obliquity on shock heating in planetesimal collisions, Meteoritics & Planetary Science, 49(12):2252-2265. doi: 10.1111/maps.12394
  • Krohn, K., Jaumann, R., Elbeshausen, D., Kneissl, T., Schmedemann, N., Wagner, R., Voigt, J., Otto, K., Matz, K.D., Preusker, F. , Roatsch, T., Stephan, K., Raymond, C.A., and Russell C.T. (2014) Asymmetric craters on Vesta: Impact on sloping surfaces. Planetary and Space Science, in press.

2013

  • Ciesla F. J., Davison T. M., Collins G. S., O'Brien D. P. (2013). Thermal consequences of impacts in the early solar system, Meteoritics & Planetary Science 48, 2559-2576. doi: 10.1111/maps.12236
  • Miljković, K., Wieczorek, M. A., Collins, G. S., Laneuville, M., Neumann, G. A., Melosh, H. J., Solomon, S. C., Phillips, R. J., Smith, D. E., Zuber, M. T. (2013) Asymmetric distribution of lunar impact basins caused by variations in target properties. Science, 342, 724–726. doi: 10.1126/science.1243224
  • Potter, R. W. K., Kring, D. A. & Collins, G. S. (2013) Quantifying the attenuation of structural uplift beneath large lunar craters. Geophys. Res. Lett. doi:10.1002/2013GL057829
  • Bowling, T. J., Johnson, B. C., Melosh, H. J., Ivanov, B. A., O'Brien, D. P., Gaskell, R., and Marchi, S. (2013) Antipodal terrains created by the Rheasilvia basin forming impact on asteroid 4 Vesta. Journal of Geophysical Research: Planets, 118, 9. doi:10.1002/jgre.20123
  • Davison, T. M., O'Brien, D. P., Ciesla, F. J. and Collins, G. S. (2013) The early impact histories of meteorite parent bodies. Meteoritics & Planetary Science 48, 1894-1918. doi: 10.1111/maps.12193
  • Elbeshausen D., Wünnemann K., Collins G.S. (2013) The transition from circular to elliptical impact craters. Journal of Geophysical Research: Planets 118 (11), 2295-2309, doi:10.1002/2013JE004477.
  • Potter, R. W. K., Kring, D. A., Collins, G. S., Kiefer, W. S. & McGovern, P. J. (2013) Numerical modeling of the formation and structure of the Orientale impact basin. Journal of Geophysical Research: Planets, 118, 963–979. doi:10.1002/jgre.20080
  • Potter, R. W. K. & Collins, G. S. (2013) Numerical modeling of asteroid survivability and possible scenarios for the Morokweng crater-forming impact. Meteoritics & Planetary Science 48, 744–757.
  • Buhl E., Kowitz A., Elbeshausen D., Sommer F., Dresen G., Poelchau M.H., Reimold W.U., Schmitt R.T., Kenkmann T. (2013) Particle size distribution and strain rate attenuation in hypervelocity impact and shock recovery experiments. Journal of Structural Geology, 56 (11), 20-33.
  • Miljković K., Collins G.S., Mannick, S., Bland, P. A. (2013) Morphology and population of binary asteroid impact craters. Earth and Planetary Science Letters 363, 121–132.

2012

  • Collins G.S., Melosh H.J., Osinski G.R. (2012) The Impact-Cratering Process, ELEMENTS, 8:25-3.
  • Davison, T.M., Ciesla, F.J. and Collins, G.S. (2012) Post-impact thermal evolution of porous planetesimals. Geochimica et Cosmochimica Acta, 95, pp. 252-269(18)
  • Potter, R. W. K., Kring, D. A., Collins, G. S., Kiefer, W. S. & McGovern, P. J. (2012) Estimating transient crater size using the crustal annular bulge: Insights from numerical modeling of lunar basin-scale impacts. Geophys. Res. Lett. 39, L18203.
  • Miljkovic, K., Collins, G.S., Chapman, D.J., Patel, M.R., Proud, W. (2012) High-velocity impacts in porous solar system materials. AIP Conf. Proc. 1426, pp. 871-874; doi:http://dx.doi.org/10.1063/1.3686416
  • Potter RWK, Collins GS, Kiefer WS, et al, (2012) Constraining the size of the South Pole-Aitken basin impact, Icarus, 220:730-743.

2011

  • Collins GS, Melosh HJ, Wuennemann K (2011) Improvements to the epsilon-alpha porous compaction model for simulating impacts into high-porosity solar system objects, INTERNATIONAL JOURNAL OF IMPACT ENGINEERING, 38:434-439.
  • Collins, G.S., Elbeshausen, D., Davison, T.M., Robbins, S.J. and Hynek, B.M. (2011). The size-frequency distribution of elliptical impact craters. Earth and Planetary Science Letters, Volume 310, Issues 1-2, pp. 1-8(8)
  • Davison, T.M., Collins, G.S., Elbeshausen D., Wünnemann, K. and Kearsley, A. (2011). Numerical modeling of oblique hypervelocity impacts on strong ductile targets. Meteoritics and Planetary Science, Volume 46, Issue 10, pp. 1510-1524(15)
  • Elbeshausen D. and Wünnemann K. (2011). iSALE-3D: A three-dimensional, multi-material, multi-rheology hydrocode and its applications to large-scale geodynamic processes. In: Schäfer, F. (ed.) ; Hiermaier, S. (ed.): Proceedings of the 11th Hypervelocity Impact Symposium 2010, Freiburg, Germany, April 11-15, 2010. Fraunhofer Verlag, Stuttgart, 828 pp. (Epsilon. Forschungsergebnisse aus der Kurzzeitdynamik, 20) (ISBN 3-8396-0280-7 ; ISBN 978-3-8396-0280-5 ; ISSN 1612-6718)
  • Morgan JV, Warner MR, Collins GS, et al. (2011) Full waveform tomographic images of the peak ring at the Chicxulub impact crater, Journal of Geophysical Research, 116. doi:http://dx.doi.org/10.1029/2010JB008015
  • Wünnemann K., Nowka D., Collins G.S., Elbeshausen D. and Bierhaus M. (2011). Scaling of impact crater formation on planetary surfaces – insights from numerical modeling. In: Schäfer, F. (ed.) ; Hiermaier, S. (ed.): Proceedings of the 11th Hypervelocity Impact Symposium 2010, Freiburg, Germany, April 11-15, 2010. Fraunhofer Verlag, Stuttgart, 828 pp. (Epsilon. Forschungsergebnisse aus der Kurzzeitdynamik, 20) (ISBN 3-8396-0280-7 ; ISBN 978-3-8396-0280-5 ; ISSN 1612-6718)

2010

  • Davison, T.M., Collins, G.S. and Ciesla, F. (2010). Numerical modeling of heating in porous planetesimal collisions. Icarus, Volume 208, Issue 1, pp. 468-481(14)
  • Wünnemann K, Collins GS, Weiss R (2010) IMPACT OF A COSMIC BODY INTO EARTH'S OCEAN AND THE GENERATION OF LARGE TSUNAMI WAVES: INSIGHT FROM NUMERICAL MODELING, REVIEWS OF GEOPHYSICS, 2010, Vol:48.

2009

  • Christeson GL, Collins GS, Morgan JV, et al. (2009) Mantle deformation beneath the Chicxulub impact crater, EARTH AND PLANETARY SCIENCE LETTERS, 284:249-257.
  • Elbeshausen D., Wünnemann K. and Collins G.S. (2009) Scaling of Oblique Impacts in Frictional Targets: Implications for Crater Size and Formation Mechanisms. Icarus 204, 716-731, ISSN: 0019-1035.
  • Kenkmann T., Artemieva N. A., Wünnemann K., Poelchau M. H., Elbeshausen D. and Nunez del Prado H. (2009). The Carancas meteorite impact crater, Peru: Geologic surveying and modeling of crater formation and atmospheric passage. Meteor. Planet. Sci. 44, p. 985-1000.
  • Kenkmann T, Collins GS, Wittmann A, et al. (2009) A model for the formation of the Chesapeake Bay impact crater as revealed by drilling and numerical simulation, ln:The ICDP-USGS Deep Drilling Project in the Chesapeake Bay impact structure, Editor(s): Gohn, Koeberl, Miller, Reimold, Boulder, Colorado, Geological Society of America, 571-586.

2008

  • Bray VJ, Collins GS, Morgan JV, et al (2008) The effect of target properties on crater morphology: Comparison of central peak craters on the Moon and Ganymede, METEORITICS & PLANETARY SCIENCE, 2008, 43:1979-1992.
  • Collins GS, Morgan J, Barton P, et al. (2008) Dynamic modeling suggests terrace zone asymmetry in the Chicxulub crater is caused by target heterogeneity, EARTH PLANET SC LETT, 2008, 270:221-230.
  • Collins G. S., Artemieva N., Wünnemann K., Bland P. A., Reimold W. U., Koeberl C. (2008): Evidence that Lake Cheko is not an impact crater, Terra Nova; in press.
  • Collins GS, Kenkmann T, Osinski GR, et al (2008) Mid-sized complex crater formation in mixed crystalline-sedimentary targets: Insight from modeling and observation, METEORITICS & PLANETARY SCIENCE, 43:1955-1977.
  • Osinski GR, Grieve RAF, Collins GS, et al. (2008) The effect of target lithology on the products of impact melting, METEORITICS & PLANETARY SCIENCE, 2008, 43:1939-1954.
  • Pierazzo, E. and 13 colleagues (2008). Validation of numerical codes for impact and explosion cratering: Impacts on strengthless and metal targets. Meteor. Planet. Sci. 43 (12).
  • Wünnemann K, Collins GS, Osinski GR (2008) Numerical modelling of impact melt production in porous rocks, EARTH AND PLANETARY SCIENCE LETTERS, 269:529-538.

2007

  • Davison, T. and Collins, G.S. (2007) The effect of the oceans on the terrestrial crater size-frequency distribution: Insight from numerical modeling. Meteoritics & Planetary Science, Volume 42, Issue 11, pp. 1915-1927
  • Weiss R., Wünnemann K. (2007): Large waves caused by oceanic impacts of meteorites, in A. Kunda, ed., Tsunami and nonlinear waves, Springer Verlag, 315p., ISBN: 978-3-540-71255-8
  • Wünnemann K., Weiss R., Hofmann K. (2007): Characteristics of oceanic impact induced large water waves - reevaluation of the tsunami hazard, Meteoritics Plant. Sci. 42(11).

2006

  • Goldin T. J., Wünnemann K., Melosh, H. J., Collins G. S (2006): Hydrocode modeling of the Sierra Madera impact structure, Meteoritics and Planetary Science 21, 1947-1958.
  • Schäfer F., Thoma K., Behner T., Kenkmann T., Wünnemann K., Deutsch A., the MEMIN-Team, (2006): Impact Experiments on dry and wet sandstone, Proc. First International Conference on Impact Cratering in the Solar System, ESTEC, Noordwijk, The Netherlands, 08 - 12 May, 2006, 6pp
  • Weiss R., Wünnemann K, Bahlburg, H. (2006): Numerical modelling of generation, propagation and run-up of tsunamis caused by oceanic impacts: model strategy and technical solutions, Geophysical Journal International 167, 77-88
  • Wünnemann K., Collins G. S., Melosh H. J. (2006): A strain-based porosity model for use in hydrocode simulations of impacts and implications for transient-crater growth in porous targets, Icarus 180, 514-527.

2005

  • Collins G. S., Wünnemann K. (2005a): How big was the Chesapeake Bay impact? Insight from numerical modelling, Geology, 33, 925-928.
  • Elbeshausen, D. (2005): Online-Visualisierung und Steuerung geodynamischer Simulationsrechnungen. Technical Report IB-2005-13, Esser R. (Editor) PDF
  • Jones A. P., Wünnemann K., Price D. ( 2005): Modelling impact volcanism as a possible origin for the Ontong Java Plateau (OJP), in Foulger, G. R., Natland, J. H., Presnall, D. C., and Anderson, D. L., eds., Plates, plumes, and paradigms: Geological Society of America Special Paper 388, pp. 711-720.
  • Wünnemann K., Morgan J. V., Jödicke, H. (2005a): Is Ries crater typical for its size? An analysis based upon old and new geophysical data and numerical modeling, in Kenkmann, T., Hörz, F., Deutsch, A., eds., Large meteorite impacts III, Geological Society of America Special Paper 384, pp. 67-83.

2004

  • Collins GS, Melosh HJ, Ivanov BA (2004) Modeling damage and deformation in impact simulations, METEORIT PLANET SCI, 2004, 39:217-231.

2003

  • Collins GS, Melosh HJ (2003) Acoustic fluidization and the extraordinary mobility of sturzstroms, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, 2003, Vol:108.
  • Wünnemann K., Ivanov B. A. (2003): Numerical modelling of impact crater depth-diameter dependence in an acoustically fluidized target, Planetary and Space Science, 51, 831-845.

2002

  • Collins GS, Melosh HJ, Morgan JV, et al (2002) Hydrocode Simulations of Chicxulub crater collapse and peak-ring formation, ICARUS, 157:24-33.
  • Wünnemann K., Lange M.A. (2002): Numerical modelling of impact induced modifications of the deep-sea floor, Deep Sea Research II, 49, 969-981.

2001

  • Wünnemann K. (2001): Numerical modelling of impact processes - cratering, shock induced modifications in rocks and oceanic impact events, Ph.D. thesis, Inst. of Geophysics, WWU Münster (in German), 189 pp.

abstracts:

2013

  • Elbeshausen D., Wünnemann K., and Collins G.S. (2013) Crater Formation After Shallow Impacts — How do Elliptical Craters form? The Large Meteorite Impacts and Planetary Evolution V meeting, LPI Contribution No. 3082.
  • Elbeshausen D. and Wünnemann K. (2013) Crater Formation in the Transition from Circular to Elliptical Impact Structures. Lunar and Planetary Science Conference, LPI Contribution No. 1916
  • Elbeshausen D., Krohn K., Wünnemann K., Jaumann R., Russell C.T., Raymond C.A. (2013) Bimodal Craters on Vesta: Impacts on Slopes Studied by Numerical Simulations. Lunar and Planetary Science Conference, LPI Contribution No. 1903
  • Krohn K., Jaumann R., Elbeshausen D., Kneissl T., Wagner R., Stephan K., Otto K., Matz K.D., Preusker F., Roatsch T., Schmedemann N., Raymond C.A., Russell C.T. (2013) Bimodal Craters on Vesta: Impacts on Slopes Studied by Geological Observations. Lunar and Planetary Science Conference, LPI Contribution No. 1949
  • Miljkovic, K. and Wieczorek, M. A. (2013) Tracing lower crust and upper mantle on the surface of the Moon. The Large Meteorite Impacts and Planetary Evolution V meeting, LPI Contribution No. 3018.
  • Miljkovic, K., Wieczorek, M. A., Collins, G. S., Laneuville, M., Neumann, G. A., Melosh, H. J., Solomon, S. C., Phillips, R. J., Smith, D. E., Zuber, M. T. (2013) Asymmetric distribution of lunar impact basins caused by variations in target properties, 44th LPSC, LPI Contribution No. 1926.

2012

  • Elbeshausen D., Wünnemann K., Sierks H., Vincent J.B., and Oklay N. (2012) The Effect of Topography on the Impact Cratering Process on Lutetia. Lunar and Planetary Science Conference, LPI Contribution No. 1867
  • Miljkovic, K., Collins, G.S., Mannick, S., Bland, P.A. (2012) Hydrocode Simulations of Binary Asteroid Impacts. LPSC XLIII #1659, id.1338.

2011

  • Elbeshausen D., Wünnemann K. (2011). The Effect of Target Topography and Impact Angle on Crater Formation — Insight from 3D Numerical Modelling. LPSC XLII #1778.
  • Bierhaus M., Wünnemann K., Elbeshausen D., Collins G.S. (2011). Numerical Modeling of Basin Forming Impacts on Mars: Implications for the Heat Budget of Planetary Interior. LPSC XLII #2128.
  • Güldemeister N., Durr N., Wünnemann K., Elbeshausen D., Hiermaier S. (2011) Propagation of Impact-Induced Shock Waves in Heterogenous Rocks Using Mesoscale Modeling. LPSC XLII #1104.
  • Davison, T.M., Collins, G.S., Ciesla, F.J. and O'Brien, D.P. (2011). The energy budget of planetesimal collisions: A quantitative analysis. LPSC XLII #2350
  • Davison, T.M., Ciesla, F.J., Collins, G.S. and O'Brien, D.P. (2011). The role of impacts in the thermal evolution of planetesimals. LPSC XLII #2254
  • Collins, G.S., Davison, T.M., and Ciesla, F.J. (2011). Numerical simulations of sub-catastrophic porous planetesimal collisions. LPSC XLII #1933
  • Elbeshausen D., Wünnemann K. and Artemieva N.A. (2011) Studying High-Energy and Rapid Large-Scale Geodynamic Processes with the Hydrocodes iSALE and SOVA. Fragile Earth Conference.
  • Elbeshausen D. and Wünnemann K. (2011). Characteristics of oceanic waves caused by landslides. Fragile Earth Conference.
  • Wünnemann K., Elbeshausen D. and Weiss R. (2011) Comparison of Tsunami Waves Generated by Meteorite Impacts and Landslides. Fragile Earth Conference.

2010

  • Elbeshausen D., Wünnemann K. (2010). The transition from circular to elliptic impact craters. European Planetary Science Congress #EPSC2010-73.
  • Elbeshausen D., Wünnemann K. (2010). iSALE-3D: A three-dimensional, multi-material, multi-rheology hydrocode and its applications to large-scale geodynamic processes. 11th Hypervelocity Impact Symposium. Abstract.
  • Wünnemann K., Nowka D., Collins G.S., Elbeshausen D., Bierhaus M. (2010) Scaling of impact crater formation on planetary surfaces – insights from numerical modeling. 11th Hypervelocity Impact Symposium. Abstract.
  • Collins G.S., Davison T., Elbeshausen D., Robbins S.J. Hynek B.M. (2010) Size-frequency distribution of elliptical craters European Planetary Science Congress #EPSC2010-238.
  • Davison, T.M., Collins, G.S., Ciesla, F.J. and O'Brien, D.P. (2010). Cumulative impact heating of planetesimals. 73rd Annual Meteoritical Society Meeting #5252
  • Davison, T.M., Collins, G.S., Ciesla, F.J. and O'Brien, D.P. (2010). Heating planetesimals by impacts. LPSC XLI #1725
  • Elbeshausen, D., Wünnemann, K., Kenkmann, T., Poelchau, M. H., Artemieva, N. A. (2010) The remarkable Carancas Meteorite Impact Event: New insights into the effect of atmosphere and topography. DGG LXX.
  • Elbeshausen, D., Wünnemann, K., Kenkmann, T., Poelchau, M. H., Artemieva, N. A. (2010) Carancas: The smallest and first eye-witnessed impact crater event on Earth. DGG LXX.
  • Elbeshausen, D., Bierhaus, M., Wünnemann, K. (2010) Melt production in oblique and giant impacts: Geodynamic consequences for planetary interior. DGG LXX.

2009

  • Elbeshausen D., Wünnemann K. (2009). Asymmetries in complex craters due to oblique meteorite impacts and target topography. DGG LXIX.
  • Elbeshausen D., Wünnemann K., Titov V. and Weiss R. (2009). Characteristics of oceanic waves caused by landslides. DGG LXIX.
  • Elbeshausen D., Wünnemann K. (2009). Hydrocode simulations of meteorite impacts in three dimensions - on the role of the impact angle. DGG LXIX.
  • Elbeshausen D., Wünnemann K., Titov V. and Weiss R. (2009). A computational framework for studying tsunamigenic rockslides. DGG LXIX.
  • Elbeshausen D., Wünnemann K. and Collins, G. S. (2009). Oblique impacts in frictional targets - implications for crater size and scaling. LPSC XL #1559.
  • Collins G. S., Davison T., Elbeshausen D. and Wünnemann K. (2009). Numerical simulations of oblique impacts: The effect of impact angle and target strength on crater shape. LPSC XL # 1620.
  • Wünnemann K., Elbeshausen D. and Collins G. S. (2009). Structural evidence for the direction of impact at complex craters: Insights from 3D numerical modeling. LPSC XL #1593.
  • Potter R. W. K., Collins G. S., Elbeshausen D. and Wünnemann K. (2009). The effect of asteroid shape, velocity and target material on asteroid survivability. LPSC XL #1610.
  • Davison, T.M., Collins, G.S. and Ciesla, F. (2009). Quantifying Heating in Porous Planetesimal Collisions. 72nd Annual Meteoritical Society Meeting, Nancy, France. #5311

2008

  • Elbeshausen D., Wünnemann K. and Weiss R. (2008). Characteristics of oceanic waves caused by landslides - insights from 3D hydrocode modeling. AGU Fall Meeting 2008, abstract #OS53B-1314.
  • Elbeshausen D. and Wünnemann K. (2008) Complex crater formation driven by oblique meteorite impacts. LMI IV #3078.
  • Pierazzo E. and 13 collegues (2008) The impact hydrocode benchmark and validation project. LMI IV #3022.
  • Wünnemann K., Collins G. S. and Elbeshausen D. (2008) Limitations of points-source analogy for meteorite impact and implications to crater scaling. LMI IV #3076.
  • Kenkmann T., Artemieva N. A., Wünnemann K., Poelchau M., Elbeshausen D. and Nunez del Prado H. (2008) The remarkable meteorite impact event on September 15, 2007, Carancas, Peru: What did we learn? LMI IV #3063.
  • Elbeshausen D. and Wünnemann K. (2008) Asymmetries in complex craters due to oblique meteorite impacts? LMI IV #3080.
  • Elbeshausen D., Wünnemann K. and Collins G. S. (2008) Crater scaling for oblique impacts in frictional targets: Insight from 3D-hydrocode modelling. LPSC XXXIX #1795.
  • Davison, T.M., Collins, G.S. and Ciesla, F. (2008). Hydrocode modelling of melt production in planetesimal collisions. LPSC XXXIX #2008
  • Elbeshausen D. and Wünnemann K. (2008) Complex crater formation driven by oblique meteorite impacts. DGG LXVIII.
  • Elbeshausen D., Wünnemann K. and Collins G. S. (2008) The role of friction in oblique impacts - insights from numerical modelling. DGG LXVIII
  • Davison, T.M., Collins, G.S. and Ciesla, F. (2008). Numerical modelling of shock heating in porous planetesimal collisions. 71st Annual Meteoritical Society Meeting #5288
  • Davison, T., Collins, G.S. and Ciesla, F. (2008). Numerical modelling of impacts as a chondrule formation model. Royal Astronomical Society Specialist Discussion Meeting: Impact-Driven Change in the Solar System.

2007

  • Collins G.S., Morgan J.V., Wünnemann K., Elbeshausen D., Gulick S., Barton P. and Christeson G. (2007) Is the Chixculub crater asymmetry due to target asymmetry or oblique impact? Insight from numerical modelling. Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract U22A-02
  • Wünnemann K., Elbeshausen D. and Collins G.S. (2007) The effect of impact angle on the formation of meteorite impact craters: Insight from 3D numerical modeling. Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract U22A-01
  • Poelchau M., Elbeshausen D., Kenkmann T. and Wünnemann K. (2007) Structural signatures of oblique impacts - insights from field observations. Bridging the GAP II, #8058
  • Elbeshausen D., Wünnemann K. and Collins G.S. (2007) Cratering mechanisms of oblique impacts in targets of different strength - insights from numerical modeling. Bridging the GAP II, #8045.
  • Elbeshausen D., Poelchau M., Wünnemann K. and Kenkmann T. (2007) Structural signatures of oblique impacts - insights from numerical modeling. Bridging the GAP II, #8047.
  • Davison, T. and Collins, G.S. (2007). Investigating the effect of water depth on marine impact crater morphology. Bridging the Gap II #8041
  • Elbeshausen D., Wünnemann K. and Collins G. S. (2007) Three-dimensional numerical modeling of oblique impact processes: Scaling of cratering efficiency. LPSC XXXVIII, #1952.
  • Elbeshausen D. and Wünnemann K. (2007) Numerische Modellierung von Meteoriteneinschlägen: Einfluss des Einschlagwinkels auf die Kraterentwicklung. DGG LXVII.
  • Elbeshausen D. and Wünnemann K. (2007) Numerical modeling of oblique meteorite impacts in three dimensions. DGG LXVII.
  • Wünnemann K., Collins G. S. (2007): The effect of porosity on impact melt production, 38th LPSC, #1514.
  • Collins G. S., Wünnemann K. (2007): Numerical modelling of impact crater excavation in porous targets, 38th LPSC, #1789.
  • Elbeshausen D., Wünnemann K., Collins G. S. (2007): Three-dimensional numerical modelling of oblique impact processes: Scaling of crater efficiency, 38th LPSC, #1952.
  • Kenkmann T., Patzschke M., Thoma K., Schäfer F., Wünnemann K., Deutsch A., MEMIN-team (2007): Deformation of sandstone in hypervelocity cratering experiments, 38th LPSC, #1527
  • Pierazzo E., Artemieva N., Asphaug E., Cazamias J., Coker R., Collins G. S., Gisler G., Holsapple K. A., Housen K. R., Ivanov B. A., Johnson C., Korycansky D. G., Melosh H. J., Taylor E. A., Turtle E. P., Wünnemann K. (2007): The impact hydrocode benchmark and validation project: Initial results, 38th LPSC #2015.
  • Schade S., Wünnemann K. (2007b): Numerical modeling of pore space collapse due to shock wave compression, 38th LPSC, #2029.
  • Hofmann K., Wünnemann K., Weiss R. (2007): Oceanic Impacts – Types and characteristics of induced water waves, 38th LPSC, #1586.

2006

  • Buchanan, P. C., Wünnemann K., Reimold, W. U. (2006): Temperature and Pressure Dependent Formation of Ringwoodite along a Melt Vein in Dar Al Gani 650 (L6), Proceedings of 69th Annual Meeting of the Meteoritical Society in Zürich, Switzerland, 6.-11. August, 2006, p. 5192.
  • Collins, G. S., Wünnemann K. (2006): The role of sediment strength and thickness at the Ries and Haughton impact structures: Insight from numerical modelling, Proc. Impact craters as indicators for planetary environmental evolution and astrobiology, Östersund, Sweden, 8-14 June, 2006.
  • Wünnemann K., Weiß, R., Hofmann K. (2006): Numerical modeling of generation, propagation and run-up of tsunamis caused by oceanic impacts, Proc. Impact craters as indicators for planetary environmental evolution and astrobiology, Östersund, Sweden, 8-14 June, 2006.
  • Davison, T. and Collins, G.S. (2006). Investigating the effect of water depth on marine impact crater morphology. Proc. Impact craters as indicators for planetary environmental evolution and astrobiology, Östersund, Sweden, 8-14 June, 2006. #4923
  • Collins, G. S., Wünnemann, K. (2006): The effect of porosity and friction on ejection angle and velocity during crater growth: Insight from numerical modelling, Proc. First International Conference on Impact Cratering in the Solar System, ESTEC, Noordwijk, The Netherlands, 08 - 12 May, 2006.
  • Schäfer, F., Thoma, K., Behner, T., Kenkmann, T., Wünnemann, K., and the MEMIN-Team, (2006): Impact Tests On Dry And Wet Sandstone, Proc. First International Conference on Impact Cratering in the Solar System, ESTEC, Noordwijk, The Netherlands, 08 - 12 May, 2006.
  • Wünnemann, K., Kenkmann, T., Thoma, K., and the MEMIN-Team (2006): Impact cratering on porous targets: Comparative study of impact experiments and numerical modeling, Proc. First International Conference on Impact Cratering in the Solar System, ESTEC, Noordwijk, The Netherlands, 08 - 12 May, 2006.
  • Kenkmann T., Jahn A., Wünnemann K. (2006): "Block Size" in a Complex Impact Crater Inferred from the Upheaval Dome Structure, Utah, 37th LPSC, #1540.

2005

  • Wünnemann K., Collins G. S., Melosh H. J. (2005): A novel porosity model for use in hydrocode simulations, 36th LPSC, #1508.
  • Wünnemann K., Collins G. S., Melosh H. J. (2005): Numerical modelling of the Deep Impact Mission experiment, 36th LPSC, #1837.
  • Collins G. S., Wünnemann K. (2005): How big was the Chesapeake Bay impact? Insight from numerical modelling, 36th LPSC.
  • Goldin T. J., Wünnemann K., Melosh, H. J., Collins G. S.(2005): Hydrocode modelling of the Sierra Madera impact structure, 36th LPSC.
  • Collins G.S., Ivanov B.A., Melosh H.J., Morgan J.V., Wünnemann K (2005): Numerical modeling of the Chicxulub Impact Structure, AGU Spring-Meeting, #P21A-02.

2004

  • Wünnemann K., Morgan J. V. (2004): Investigation of the Ries impact crater based upon old and new geophysical data and numerical modelling, 35th LPSC, #1229.

2003

  • Weiß R., Wünnemann K. (2003): Oceanic Impacts, Tsunamis, and the influence of water depth on the quantity and characteristics of generated waves, 3rd Large Meteorite Impacts, #4081.
  • Wünnemann K. (2003): Numerical modelling of impact crater collapse utilising different constitutive equations, 3rd Large Meteorite Impacts, #4044.

2002

  • Wünnemann K., Ivanov B.A., Lange M.A. (2002): Numerical modelling of the scale dependence of impact crater morphology in an acoustic fluidized target, 33rd LPSC, #1277.