A complete list of publications of Prof. Dr. Thomas Franosch can be found on Google Scholar. Publication lists of group members can be found on their individual webpages.


[Preprints | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | ≤ 2014]





  • M. Caraglio, F. Baldovin, B. Marcone, E. Orlandini, and A.L. Stella, Topological disentanglement of linear polymers under tension, Polymers 12, 2580 (2020)
  • S. Mandal, C. Kurzthaler, T. Franosch, H. Löwen, Crowding-enhanced diffusion: An exact theory for highly entangledself-propelled stiff filaments, Physical Review Letters 125, 138002 (2020)
  • G. Jung, L. Schrack, T. Franosch, Tagged-particle dynamics in confined colloidal liquids, Physical Review E 102, 032611 (2020)
  • O. Ilina, P. G. Gritsenko, S. Syga, J. Lippoldt, C. AM La Porta, O. Chepizhko, S. Grosser, M. Vullings, G.-J. Bakker, J. Starruß, P. Bult, S. Zapperi, J. A. Käs, A. Deutsch, P. Friedl, Cell–cell adhesion and 3D matrix confinement determine jamming transitions in breast cancer invasion, Nat Cell Biol, 22, 1103–1115 (2020)
  • M. C. Lionetti, F. Cola, O. Chepizhko, M. R. Fumagalli, F. Font-Clos, R. Ravasio, S. Minucci, P. Canzano, M. Camera, G. Tiana, S. Zapperi, C. AM La Porta, MicroRNA-222 Regulates Melanoma Plasticity, J. Clin. Med., 9, 2573 (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, C. F. Petersen, Confinement-induced demixing and crystallization, Phys. Rev. Res. 2, 033207 (2020)
  • G. Jung, M. Caraglio, L. Schrack, T. Franosch, Dynamical properties of densely packed confined hard-sphere glasses, Phys. Rev. E 102, 012612 (2020)
  • G. Jung, Th. Voigtmann, T. Franosch, Scaling equations for mode-coupling theories with multiple decay channels, J. Stat. Mech. 073301 (2020)
  • O. Chepizhko, and T. Franosch, Random motion of a circle microswimmer in a random environment, New Journal of Physics 22, 073022 (2020)
  • M. C. Lionetti, S. Bonfanti, M. R. Fumagalli, Z. Budrikis, F. Font-Clos, G. Costantini, O. Chepizhko, S. Zapperi, and C. A. M. La Porta, Chromatin and Cytoskeletal Tethering Determine Nuclear Morphology in Progerin-Expressing Cells, Biophysical Journal, 118, 9, 2319-2332 (2020)
  • M. Caraglio, E. Orlandini and S. G. Whittington, Translocation of links through a pore: effects of link complexity and sizeJ. Stat. Mech. 043203 (2020).
  • L. Ravazzano, S. Bonfanti, M. C. Lionetti, M. R. Fumagalli, R. Guerra, O. Chepizhko, C. A. M. La Porta,  S. Zapperi, Unjamming of active rotators, Soft Matter, 2020, Advance Article
  • M. Caraglio, T. Sakaue, and E. Carlon, Transition path times in asymmetric barriers, Phys. Chem. Chem. Phys. 22, 3512 (2020).
  • L. Schrack, T. Franosch, Mode-coupling 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)
  • S.K. Nomidis, M. Caraglio, M. Laleman, K. Phillips, E. Skoruppa, E. Carlon, Twist-bend coupling, twist waves, and the shape of DNA loops , Phys. Rev. E 100, 022402 (2019).
  • P Witzel, M Götz, Y Lanoiselée, T Franosch, DS Grebenkov, D Heinrich, Heterogeneities shape passive intracellular transport, Biophysical Journal, 117, 203-213 (2019)
  • M. Caraglio, F. Baldovin, B. Marcone, E. Orlandini, A.L. Stella, Topological disentanglement dynamics of torus knots on open linear polymers, ACS Macro Lett. 8, 576 (2019)
  • CF Petersen, L Schrack, T Franosch, Static properties of quasi-confined hard-sphere fluids, J. Stat. Mech. 083216 (2019)
  • CF Petersen, T Franosch, Anomalous transport in the soft-sphere Lorentz model, Soft Matter, 15, 3906 (2019)
  • A. Farhan, M. Saccone, C. F. Petersen, S. Dhuey, R. V. Chopdekar, Y.-L. Huang, N. Kent, Z. Chen, M. J. Alava, T. Lippert, A. Scholl, S. van Dijken, Emergent magnetic monopole dynamics in macroscopically degenerate artificial spin ice, Science Advances, 5 (2), eaav6380, (2019)
  • S.K. Nomidis, M. Caraglio, M. Laleman, K. Phillips, E. Skoruppa and E. Carlon, Twist-bend coupling, twist waves, and the shape of DNA loops , Phys. Rev. E 100, 022402 (2019).
  • O Chepizhko, T Franosch, Ideal circle microswimmers in crowded media, Soft Matter, 15, 452-461 (2019)
  • C. A. M. La Porta, M. C. Lionetti, S. Bonfanti, S. Milan, C. Ferrario, D. Rayneau-Kirkhope, M. Beretta, M. Hanifpour, U. Fascio, M. Ascagni, L. De Paola, Z. Budrikis, M. Schiavoni, E. Falletta, A. Caselli, O. Chepizhko, A. Tuissi, A. Vailati,  S. Zapperi, Metamaterial architecture from a self-shaping carnivorous plant, PNAS, (2019)  








  • M Balbas Gambra, C Rohr, K Gruber, BA Hermann, T Franosch, Simulating self-organized molecular patterns using interaction-site models, Eur. Phys. J. E 35, 25 (2012)
  • M Grimm, T Franosch, S Jeney, High-resolution detection of Brownian motion for quantitative optical tweezers experiments,
    Phys. Rev. E 86, 021912 (2012)
  • R Schilling, V Krakoviack, S Lang, T Franosch, Mode-coupling theory of the glass transition for confined fluids, Phys. Rev. E 86 (2), 021502 (2012)



Selected publications ≤ 2009


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