1. Ziegenhain, G. (2017). Using Linux in Air Traffic Control – Hardware and Operating System Platforms. Open Tech Day. http://opentechday.nl/
  2. Ziegenhain, G. (2017). Using Linux in Air Traffic Control – Hardware and Operating System Platforms. FOSDEM. https://fosdem.org/2017/schedule/event/air_traffic_control/
  3. Ziegenhain, G. (2017). Alles nach Flugplan? Strategien, Ansätze und aktuelle Entwicklungen im Software Lizenzmanagement der DFS. SAMS. http://sam-strategies.de/de/sprecher/
  4. Ziegenhain, G. (2016). Virtualisierung missionskritischer Infrastrukturen. SDe. http://software-defined-strategies.com/de/agenda/
  5. Ziegenhain, G. (2016). Arbeitsfeld IT - am Beispiel einer Führungskraft der Deutschen Flugsicherung (DFS). Career Service. http://www.career.uni-mainz.de/1739_DEU_HTML.php#L_Arbeitsfeld_IT___am_Beispiel_einer_Fuehrungskraft_der_Deutschen_Flugsicherung__DFS_
  6. Ziegenhain, G. (2016). Entwicklung missionskritischer Betriebssystem-Plattformen. VMEA. http://www.ansstand.de/VMEA/index.html
  7. Ziegenhain, G. (2014). Virtualisierung missionskritischer Infrastruktur. Virtual Workplace Evolution.
  8. Ziegenhain, G. (2013, December). Vom Physiker zur Führungskraft. Vortragsreihe "Physiker Im Beruf".
  9. Ziegenhain, G. (2013). WSPR-Bake zur Untersuchung von Ausbreitungsbedingungen. Funkamateur, 09, 956.
  10. Anders, C., Ziegenhain, G., Ruestes, C. J., Bringa, E. M., & Urbassek, H. M. (2012). Crater formation by nanoparticle impact: Contributions of gas, melt and plastic flow. New J. Phys., 14, 083016. https://doi.org/10.1088/1367-2630/14/8/083016
  11. Anders, C., Bringa, E. M., Ziegenhain, G., Graham, G. A., Hansen, J. F., Park, N., Teslich, N. E., & and Herbert M. Urbassek. (2012). Why Nanoprojectiles Work Differently than Macroimpactors: The Role of Plastic Flow. PRL, 108, 027601. https://doi.org/10.1103/PhysRevLett.108.027601
  12. Anders, C., Bringa, E. M., Fioretti, F. D., Ziegenhain, G., & Urbassek, H. M. (2012). Crater formation caused by nanoparticle impact: A molecular dynamics study of crater volume and shape. Physical Review B, 85, 235440. https://doi.org/10.1103/PhysRevB.85.235440
  13. Ziegenhain, G. (2012). Was haben Nanoindentation und Luftraumkontrolle gemeinsam? Abschlusskolloquium DFG GRK 814.
  14. Anders, C., Bringa, E. M., Ziegenhain, G., & Urbassek, H. M. (2011). Stopping of hypervelocity clusters in solids. New Journal of Physics, 13(11), 113019. https://doi.org/10.1088/1367-2630/13/11/113019
  15. Ziegenhain, G. (2010, November). High Performance-Computing for the Atomistic Simulation of Plasticity in FCC Metals. The Third International Conference on Mathematics and Natural Sciences.
  16. Rosandi, Y., & Ziegenhain, G. (2010, November). Mini-symposium: High performance computing and its applications on scientific research. The Third International Conference on Mathematics and Natural Sciences.
  17. Anders, C., Ziegenhain, G., & Urbassek, H. M. (2010). Stopping of clusters in solids. In COSIRES Krakau, Poland.
  18. Ziegenhain, G. (2010, June). How to Setup Your Own High-Performance Cluster. Linux Tag.
  19. Ziegenhain, G. (2010, June). High-performance Computing zur atomistischen Simulation von Nanoindentation. Physics Department.
  20. Ziegenhain, G., & Urbassek, H. M. (2010). Nano-structured surfaces yield earlier: a molecular-dynamics study of nanoindentation into adatom islands. Physical Review B, 81, 155456. https://doi.org/10.1103/PhysRevB.81.155456
  21. Ziegenhain, G., Hartmaier, A., & Urbassek, H. M. (2010). Influence of Crystal Anisotropy on the Onset of Plasticity in Nanoindentation - a Molecular Dynamics Study. J. Appl. Phys., 107, 061807. https://doi.org/10.1063/1.3340523
  22. Ziegenhain, G. (2010). Atomistische Simulation von Nanoindentation (p. 208). ISBN: 978-3-8381-1779-9, Südwestdeutscher Verlag für Hochschulschriften.
  23. Ziegenhain, G. (2009, December). Parallel MD Simulations - Short Ranged Interactions in Homogenous Materials. Physics Department, Universitas Padjadjaran.
  24. Ziegenhain, G., & Urbassek, H. M. (2009, December). Reversible Plasticity under Nanoindentation of fcc Metals. MRS Fall Meeting.
  25. Ziegenhain, G. (2009, December). Introduction to High-performance Computing. High-Performance Computing Workshop.
  26. Ziegenhain, G., & Urbassek, H. M. (2009, December). Nanoindentation into Structured Surfaces - Dependency on the Structure Size. MRS Fall Meeting.
  27. Ziegenhain, G. (2009, December). Plasticity in FCC Metals. Physics Department, Universitas Padjadjaran.
  28. Ziegenhain, G. (2009, December). Introduction Into Parallel Programming at the Example of the LAMMPS Code. High-Performance Computing Workshop.
  29. Ziegenhain, G. (2009, December). High-performance Computing: A review of the past and an outlook to the future. High-Performance Computing Workshop.
  30. Ziegenhain, G. (2009, December). Technological Overview of High-performance Computing. High-Performance Computing Workshop.
  31. Ziegenhain, G. (2009, December). Strategies in Cluster-design. High-Performance Computing Workshop.
  32. Urbassek, H. M., Ziegenhain, G., & Ringl, C. (2009, September). Collisions of Dust Nanoclusters. International Workshop on Nanostructures in Silica.
  33. Ziegenhain, G. (2009). Atomistische Simulation von Nanoindentation [PhD thesis, TU Kaiserslautern]. http://g.ziegenhain.com/doc/thesis.pdf
  34. Ziegenhain, G., & Urbassek, H. M. (2009). Reversible Plasticity in fcc metals. Philosophical Magazine Letters, 89(11), 717–723. https://doi.org/10.1080/09500830903272900
  35. Ziegenhain, G. (2009). Simulation of Rare Events. In H. M. Urbassek (Ed.), Lecture: Computational Materials Science - Advanced Topics. TU Kaiserslautern.
  36. Ziegenhain, G., & Urbassek, H. M. (2009). Effect of material stiffness on hardness: a computational study based on model potentials. Philosophical Magazine, 89(26), 2225–2238. https://doi.org/10.1080/14786430903022697
  37. Ziegenhain, G., Hartmaier, A., & Urbassek, H. M. (2009). Pair vs many-body potentials: influence on elastic and plastic behavior in nanoindentation. Journal of the Mechanics and Physics of Solids, 57, 1514–1526. https://doi.org/10.1016/j.jmps.2009.05.011
  38. Anders, C., Ziegenhain, G., Zimmermann, S., & Urbassek, H. M. (2009). Cluster-induced crater formation. Nuclear Instruments and Methods in Physics Research Section B, 267(18), 3122–3125. https://doi.org/10.1016/j.nimb.2009.07.002
  39. Anders, C., Urbassek, H. M., Ziegenhain, G., Delle-Negra, S., Fallavier, M., Novikov, A., Domaratsky, V., Obnorsky, V., Yarmiychuk, S., & Wien, K. (2009). Desorption of gold from gold nanodispersed targets by 200keV Au_5 polyatomic ions in the elastic stopping mode: Experiments and MD. Nuclear Inst. and Methods in Physics Research, B, 267(15), 2503. https://doi.org/10.1016/j.nimb.2009.05.010
  40. Urbassek, H. M., Zimmerman, S., Anders, C., & Ziegenhain, G. (2008). Cluster-induced crater formation. In COSIRES Beijing, China.
  41. Ziegenhain, G. (2008, July). From Fluid Dynamics to QM - Applications of the Lattice Boltzmann Method. Computational Physics. http://www.slideshare.net/secret/2KHFblxfBPgf7v
  42. Ziegenhain, G. (2008, June). Critical Slowing Down - Solid State Theory Approach for Determining a Glass Transition. Computational Physics. http://www.slideshare.net/secret/bxyeMmmmaZFRzk
  43. Ziegenhain, G. (2008, March). Anisotropic Effects in Nanoindentation - Crystalline Structure and Potentials. Department Werkstoffwissenschaften Erlangen.
  44. Ziegenhain, G. (2008, March). Onset of Plasticity Under Nanoindentation - Influence of the interatomic potential. GK Meeting.
  45. Ziegenhain, G. (2008, January). Atomistic Simulations of Nanoindentation. Fraunhofer ITWM High Performance Computing.
  46. Ziegenhain, G., Hartmaier, A., & Urbassek, H. M. (2008). Onset of Plasticity Under Nanoindentation Influence of the Interatomic Potential. The Fourth International Conference on Multiscale Materials Modeling. http://www.mmm2008.org
  47. Ziegenhain, G. (2007, December). Atomistische Modellierung. Tag Der Physik. http://www.slideshare.net/secret/KAqCIPfH5IsOgL
  48. Ziegenhain, G. (2007, December). Vom singenden Draht zum DVB-C - Ist digitale Kommunikation effizienter? Tag Der Physik. http://www.slideshare.net/secret/KAqCIPfH5IsOgL
  49. Ziegenhain, G. (2007, December). Rissausbreitung. Tag Der Physik.
  50. Ziegenhain, G. (2007, October). Nanoindentation of Simple Crystals - Elastic and Plastic Properties. DFG GK Meeting Potzberg.
  51. Ziegenhain, G. (2007). Structural Properties of Binary Repulsive Systems in Two Dimensions (Techreport No.1; Number 1). Johannes Gutenberg University. http://g.ziegenhain.com/doc/TechRepLM.pdf
  52. Ziegenhain, G. (2007, May). Simulations of Nanoindentation - Concepts and Results for Preliminary Model. GK Seminar.
  53. Ziegenhain, G. (2007). Nanoindentation and -scratching. GK Proceedings.
  54. Ziegenhain, G., & Schilling, R. (2006). Mode coupling theory in two dimensions. In Materialwissenschaftliches Forschungszentrum der Johannes Gutenberg-Universität Mainz. University Mainz.
  55. Ziegenhain, G. (2006). Test der Modenkopplungstheorie in zwei Dimensionen [Master's thesis, Johannes Gutenberg-Universität Mainz]. http://g.ziegenhain.com/doc/diplomarbeit.pdf
  56. Vogelsberger, M., Neb, R., Ottinger, O., Ziegenhain, G., Handel, C., Keller, K., & Bogner, C. (2005). Thermodynamik und Statistische Mechanik. None. http://g.ziegenhain.com/doc/theo_TD.pdf