Dipl.-Phys. Sebastian Leitmann, PhD

PostDoc

Room: 2S03 ITP
Phone: +43 512 507 52269
Email: Sebastian.Leitmann[at]uibk.ac.at

Research group: Bio and Nano Physics

More Information

  • FLD Research Documentation

    Publications 2017

    Contributions to Books / Journals

    Journal Article (Original Paper)
    • Leitmann, S.; Franosch, T. (2017): Time-Dependent Fluctuations and Superdiffusivity in the Driven Lattice Lorentz Gas.
      In: Physical Review Letters 118/1, No. 018001. (DOI) (Web link)

    • Leitmann, S.; Höfling, F.; Franosch, T. (2017): Dynamically crowded solutions of infinitely thin Brownian needles.
      In: Physical Review E (Statistical, Nonlinear, and Soft Matter Physics) 96/1, No. 012118. (DOI) (Web link)

    • Mandal, S.; Spanner-Denzer, M.; Leitmann, S.; Franosch, T. (2017): Complex dynamics induced by strong confinement – From tracer diffusion in strongly heterogeneous media to glassy relaxation of dense fluids in narrow slits.
      In: European Physical Journal-Special Topics 226/14, pp. 3129 - 3156. (DOI) (Web link)



    Lectures 2017

    Presentations at Conferences, Symposia, etc.

    Conference Lecture (Upon Registration)
    • Lecturer(s): Franosch, T. Co-author(s): Leitmann, S.: Time-Dependent Fluctuations and Superdiffusivity in the Driven Lattice Lorentz Gas.
      30. Marian Smoluchowski Symposium on Statistical Physics, Krakau, 2017-09-04. (Web link)

    • Lecturer(s): Franosch, T. Co-author(s): Leitmann, S.; Mandal, S.; Puertas, A.; Fuchs, M.: Nonlinear Microrheological response to a step force.
      Conference: Flowing Matter 2017, Porto, 2017-01-24. (Web link)

    • Lecturer(s): Leitmann, S. Co-author(s): Höfling, F.; Franosch, T.: Dynamically Crowded Solutions of Brownian Needles.
      DPG-Frühjahrstagung der Sektion Kondensierte Materie (SKM), Dresden, 2017-03-21. (Web link)

    • Lecturer(s): Leitmann, S. Co-author(s): Mandal, S.; Fuchs, M.; Puertas, A.; Franosch, T.: Nonlinear microrheological response to a step force.
      10th Liquid Matter Conference, Ljubljana, 2017-07-19. (Web link)



    Publications 2016

    Contributions to Books / Journals

    Journal Article (Original Paper)
    • Kurzthaler, Christina; Leitmann, Sebastian; Franosch, Thomas (2016): Intermediate scattering function of an anisotropic active Brownian particle.
      In: Scientific Reports 6, Article 36702. (DOI) (Web link)

    • Leitmann, Sebastian; Höfling, Felix; Franosch, Thomas (2016): Tube Concept for Entangled Stiff Fibers Predicts Their Dynamics in Space and Time.
      In: Physical Review Letters 117/9, Nr. 097801. (DOI) (Web link)



    Lectures 2016

    Presentations at Conferences, Symposia, etc.

    Conference Lecture (Upon Registration)
    • Lecturer(s): Kurzthaler, Christina Co-author(s): Leitmann, Sebastian; Franosch, Thomas: Dynamics of a single self-propelled particle.
      80. Jahrestagung der DPG und DPG-Frühjahrstagung, Regensburg, 2016-03-08. (Web link)

    • Lecturer(s): Mandal, Suvendu Co-author(s): Leitmann, S.; Siboni, M. H.; Franosch, Thomas; Horbach, Jürgen: Active non-linear microrheology of simple model systems: Analytical results vs. Brownian dynamics simulation.
      3rd International Workshop on Nonlinear Response in Complex Matter, Primosten, 2016-09-28. (Web link)

    Lecture at Summer-/Winterschool
    • Lecturer(s): Kurzthaler, Christina Co-author(s): Leitmann, Sebastian; Franosch, Thomas: Intermediate scattering function of an active Brownian particle.
      Summer School 2016 "Active Complex Matter", Cargese, 2016-07-13. (Web link)

    Poster Presentation
    • Lecturer(s): Kurzthaler, Christina Co-author(s): Leitmann, Sebastian; Franosch, Thomas: Intermediate scattering function of an active Brownian particle.
      4th International Soft Matter Conference (ISMC 2016), Grenoble, 2016-09-13. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Franosch, Thomas: Nonlinear Response in the driven lattice Lorentz gas.
      3rd International Workshop on Nonlinear Response in Complex Matter, Primosten, 2016-09-28. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Höfling, F.; Franosch, Thomas: Effective Perrin Theory for a Liquid of Infinitely Thin Brownian Needles.
      3rd International Workshop on Nonlinear Response in Complex Matter, Primosten, 2016-09-28. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Höfling, Felix; Franosch, Thomas: Effective Perrin Theory for a Liquid of Infinitely Thin Brownian Needles.
      80. Jahrestagung der DPG und DPG-Frühjahrstagung, Regensburg, 2016-03-08. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Kurzthaler, Christina; Franosch, Thomas: Intermediate scattering function of an active anisotropic Brownian particle.
      3rd International Workshop on Nonlinear Response in Complex Matter, Primosten, 2016-09-28. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Mandal, Suvendu; Fuchs, M.; Puertas, A. M.; Franosch, Thomas: Nonlinear Microrheological response to a step force.
      3rd International Workshop on Nonlinear Response in Complex Matter, Primosten, 2016-09-28. (Web link)

    Guest Lectures

    Guest Lecture
    • Lecturer(s): Franosch, Thomas Co-author(s): Leitmann, Sebastian; Kurzthaler, Christina: Complex anisotropic transport in entangled biopolymer solutions, active Brownian particles, and the buckling transition of semiflexible polymers.
      Georg-August-Universität Göttingen, Göttingen, 2016-12-13.



    Lectures 2015

    Presentations at Conferences, Symposia, etc.

    Conference Lecture (Upon Registration)
    • Lecturer(s): Kurzthaler, Ch Co-author(s): Leitmann, S; Franosch, Th: Intermediate-scattering function of a single self-propelled particle.
      Joint 2015 Annual Meeting of the Austrian Physical Society (Österreichische Physikalische Gesellschaft, ÖPG) and the Swiss Physical Society, Wien, 2015-09-02. (Web link)

    Poster Presentation
    • Lecturer(s): Kurzthaler, Christina Co-author(s): Leitmann, Sebastian; Franosch, Thomas: Intermediate Scattering Function of a Single Self-Propelled Particle.
      Jülich Soft Matter Days 2015, Bad Honnef, 2015-11-11. (Web link)

    • Lecturer(s): Kurzthaler, Christina Co-author(s): Leitmann, Sebastian; Franosch, Thomas: Intermediate scattering function of a single self-propelled particle.
      Summer School of the DFG SPP 1726 "Microswimmers", Jülich, 2015-09-22. (Web link)

    • Lecturer(s): Leitmann, S Co-author(s): Höfling, F; Franosch, T: Effective Perrin Theory for a Liquid of Infinitely Thin Brownian Needles.
      Joint 2015 Annual Meeting of the Austrian Physical Society (Österreichische Physikalische Gesellschaft, ÖPG) and the Swiss Physical Society, Wien, 2015-09-01. (Web link)

    • Lecturer(s): Leitmann, Sebastian: Effective Perrin Theory for a Liquid of Infinitely Thin Brownian Needles.
      1st Physics PhD Poster Day - Institut für Astro- und Teilchenphysik, Innsbruck, 2015-11-16. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Höfling, Felix; Franosch, Thomas: Effective Perrin Theory for a Liquid of Infinitely Thin Brownian Needles.
      Jülich Soft Matter Days 2015, Bad Honnef, 2015-11-12. (Web link)



    Lectures 2014

    Presentations at Conferences, Symposia, etc.

    Poster Presentation
    • Lecturer(s): Leitmann, S.: Nonlinear Response in the Driven Lattice Lorentz Gas.
      570. Heraeus Seminar Nonlinear Response in Complex Systems and Nonequilibrium Liquids, Köln, 2014-09-02. (Web link)

    • Lecturer(s): Leitmann, S.: Nonlinear Response in the Driven Lattice Lorentz Gas.
      Liquids 2014. The 9th Liquid Matter Conference, Lissabon, 2014-07-23. (Web link)

    • Lecturer(s): Leitmann, Sebastian Co-author(s): Franosch, Thomas: Nonlinear Response in the Driven Lattice Lorentz Gas.
      DPG Frühjahrstagung 2014 der Sektion Kondensierte Materie (SKM), Dresden, 2014-04-03. (Web link)



    Publications 2013

    Contributions to Books / Journals

    Journal Article (Original Paper)
    • Leitmann, S.; Franosch, T. (2013): Nonlinear Response in the Driven Lattice Lorentz Gas.
      In: Physical Review Letters 111/19, p. 190603. (DOI) (Web link)