Lukas Schrack, MSc
Research interests
- Mode-coupling theory
- Confined liquids
Publications
- M. Caraglio, L. Schrack, G. Jung, T. Franosch, An improved integration scheme for Mode-coupling-theory equations, Comm. Comp. Phys. 29, 628 (2021)
- G. Jung, L. Schrack, T. Franosch, Tagged-particle dynamics in confined colloidal liquids, Phys. Rev. E 102, 032611 (2020)
- L. Schrack, C.F. Petersen, G. Jung, M. Caraglio, T. Franosch, Dynamic properties of quasi-confined colloidal hard-sphere liquids near the glass transition, J. Stat. Mech. 093301 (2020)
- G. Jung, M. Caraglio, L. Schrack, T. Franosch, Dynamical properties of densely packed confined hard-sphere glasses, Phys. Rev. E 102, 012612 (2020)
- L. Schrack, T. Franosch, Mode-coupling theory theory of the glass transition for colloidal liquids in slit geometry, Philosophical Magazine 100, 1032-1057 (2020)
- S. Mandal, L. Schrack, H. Löwen, M. Sperl, T. Franosch, Persistent Anti-Correlations in Brownian Dynamics Simulations of Dense Colloidal Suspensions Revealed by Noise Suppression, Phys. Rev. Lett. 123, 168001 (2019)
- C. F. Petersen, L. Schrack, T. Franosch, Static properties of quasi-confined hard-sphere fluids, J. Stat. Mech. 083216 (2019)
- M. Schlenk, E. Hofmann, S. Seibt, S. Rosenfeldt, L. Schrack, M. Drechsler, A. Rothkirch, W. Ohm, J. Breu, S. Gekle and S. Förster, Parallel and perpendicular alignment of anisotropic particles in free liquid micro-jets and emerging micro-droplets, Langmuir 34, 4843-4851 (2018)
- C. Bächer, A. Kihm, L. Schrack, L. Kaestner, M. W. Laschke, C. Wagner and S. Gekle, Anti-margination of microparticles and platelets in the vicinity of branching vessels, Biophys. J. 115, 411-425 (2018)
- C. Bächer, L. Schrack and S. Gekle, Clustering of microscopic particles in constricted blood flow, Phys. Rev. Fluids 2, 013102 (2017)
Curriculum vitae
2017 MSc (Physics), Universität Bayreuth, Germany
2015 BSc (Physics), Universität Bayreuth, Germany