Publications

Books

Submitted articles

Journal articles

    2017

  1. S. Schmieschek, L. Shamardin, S. Frijters, T. Krüger, U.D. Schiller, J. Harting, P.V. Coveney. LB3D: A Parallel Implementation of the Lattice-Boltzmann Method for Simulation of Interacting Amphiphilic Fluids. Comput. Phys. Comm. 217, 149 (2017). ScienceDirect
  2. J. Pande, L. Merchant, T. Krüger, J. Harting, A.-S. Smith. Effect of body deformability on microswimming. Soft Matter 13, 3984 (2017). arXiv, Soft Matter
  3. J. Pande, L. Merchant, T. Krüger, J. Harting, A.-S. Smith. Setting the pace of microswimmers: when increasing viscosity speeds up self-propulsion. New J. Phys. 19, 053024 (2017). arXiv, IOP
  4. 2016

  5. T. Krüger. Effect of tube diameter and capillary number on platelet margination and near-wall dynamics. Rheol. Acta 55, 511-526 (2016). arXiv, Springer Link
  6. C. Semprebon, T. Krüger, H. Kusumaatmaja. Ternary Free Energy Lattice Boltzmann Model with Tunable Surface Tensions and Contact Angles. Phys. Rev. E 93, 033305 (2016). arXiv, PRE
  7. 2015

  8. R. Vernekar, T. Krüger. Breakdown of deterministic lateral displacement efficiency for non-dilute suspensions: a numerical study. Med. Eng. Phys. 37, 845-854 (2015). arXiv, ScienceDirect
  9. S. Frijters, T. Krüger, J. Harting. Parallelised Hoshen-Kopelman algorithm for lattice-Boltzmann simulations. Comput. Phys. Commun. 189, 92-98 (2015). arXiv, ScienceDirect
  10. M. Gross, T. Krüger, F. Varnik. Fluctuations and diffusion in athermal suspensions of deformable particles. Europhys. Lett. 108, 68006 (2015). arXiv, EPL
  11. 2014

  12. G.B. Davies, T. Krüger, P.V. Coveney, J. Harting. Detachment Energies of Spheroidal Particles from Fluid-Fluid Interfaces. J. Chem. Phys. 141, 154902 (2014). arXiv, JCP
  13. G.B. Davies, T. Krüger, P.V. Coveney, J. Harting, F. Bresme. Assembling Ellipsoidal Particles at Fluid Interfaces using Switchable Dipolar Capillary Interactions. Adv. Mater. 26, 6800 (2014). arXiv, Advanced Materials OA
  14. T. Krüger, D. Holmes, P.V. Coveney. Deformability-based red blood cell separation in deterministic lateral displacement devices – a simulation study. Biomicrofluidics 8, 054114 (2014). arXiv, Biomicrofluidics
  15. G.B. Davies, T. Krüger, P.V. Coveney, J. Harting, F. Bresme. Interface deformations affect the orientation transition of magnetic ellipsoidal particles adsorbed at fluid-fluid interfaces. Soft Matter 10, 6742 (2014). arXiv, Soft Matter
  16. M.O. Bernabeu, M.L. Jones, J.H. Nielsen, T. Krüger, R.W. Nash, D. Groen, S. Schmieschek, J. Hetherington, H. Gerhardt, C.A. Franco, P.V. Coveney. Computer simulations reveal complex distribution of haemodynamic forces in a mouse retina model of angiogenesis. J. R. Soc. Interface 11, 20140543 (2014). arXiv, Interface OA
  17. T. Krüger, B. Kaoui, J. Harting. Interplay of inertia and deformability on rheological properties of a suspension of capsules. J. Fluid Mech. 751, 725-745 (2014). arXiv, JFM
    Focus on Fluids: C. Misbah. Soft suspensions: inertia cooperates with flexibility. J. Fluid Mech. 760, 1-4 (2014). JFM
  18. M. Gross, T. Krüger, F. Varnik. Rheology of dense suspensions of elastic capsules: normal stresses, yield stress, jamming and confinement effects. Soft Matter 10, 4360 (2014). arXiv, Soft Matter
  19. R.W. Nash, H.B. Carver, M.O. Bernabeu, J. Hetherington, D. Groen, T. Krüger, P.V. Coveney. Choice of boundary condition for lattice-Boltzmann simulation of moderate Reynolds number flow in complex domains. Phys. Rev. E 89, 023303 (2014). arXiv, PRE OA
  20. 2013

  21. T. Krüger, M. Gross, D. Raabe, F. Varnik. Crossover from tumbling to tank-treading-like motion in dense simulated suspensions of red blood cells. Soft Matter 9, 9008 (2013). arXiv, Soft Matter
  22. B. Kaoui, T. Krüger, J. Harting. Complex dynamics of a bilamellar vesicle as a simple model for leukocytes. Soft Matter 9, 8057 (2013). arXiv, Soft Matter
  23. M.O. Bernabeu, R.W. Nash, D. Groen, H.B. Carver, J. Hetherington, T. Krüger, P.V. Coveney. Impact of blood rheology on wall shear stress in a model of the middle cerebral artery. Interface Focus 3, 20120087 (2013). arXiv, Royal Society OA
  24. 2012

  25. B. Kaoui, T. Krüger, J. Harting. How does confinement affect the dynamics of viscous vesicles and red blood cells? Soft Matter 8, 9246 (2012). arXiv, Soft Matter
  26. 2011

  27. T. Krüger, F. Varnik, D. Raabe. Efficient and accurate simulations of deformable particles immersed in a fluid using a combined immersed boundary lattice Boltzmann finite element method. Comput. Math. Appl. 61, 3485 (2011). arXiv, ScienceDirect
  28. T. Krüger, F. Varnik, D. Raabe. Particle stress in suspensions of soft objects. Philos. T. Roy. Soc. A 369, 2414 (2011). RSTA OA
  29. 2010

  30. T. Krüger, F. Varnik, D. Raabe. Second-order convergence of the deviatoric stress tensor in the standard Bhatnagar-Gross-Krook lattice Boltzmann method. Phys. Rev. E 82, 025701(R) (2010). PRE
  31. M.A. Fallah, V.M. Myles, T. Krüger, K. Sritharan, A. Wixforth, F. Varnik, S.W. Schneider, M.F. Schneider. Acoustic driven flow and lattice Boltzmann simulations to study cell adhesion in biofunctionalized microfluidic channels with complex geometry. Biomicrofluidics 4, 024106 (2010). Biomicrofluidics
  32. 2009

  33. T. Krüger, F. Varnik, D. Raabe. Shear stress in lattice Boltzmann simulations. Phys. Rev. E 79, 046704 (2009). arXiv, PRE
  34. 2008

  35. T. Krüger, M. Neubert, C. Wetterich. Cosmon lumps and horizonless black holes. Phys. Lett. B 663, 21 (2008). arXiv, ScienceDirect

Review articles

  1. T. Krüger, S. Frijters, F. Günther, B. Kaoui, J. Harting. Numerical simulations of complex fluid-fluid interface dynamics. Eur. Phys. J. 222, 177 (2013). arXiv, Springer Link

Proceedings papers

  1. T. Krüger, D. Holmes, P.V. Coveney. Deformability of red blood cells affects their velocity in deterministic lateral displacement devices. 4th Micro and Nano Flows Conference 2014
  2. G. Matura, A. Basermann, F. Chen, M. Flatken, A. Gerndt, J. Hetherington, T. Krüger, R. Nash. A Pre-Processing Interface for Steering Exascale Simulations by Intermediate Result Analysis through In-Situ Post-Processing. HPCN-Workshop 2013
  3. F. Chen, M. Flatken, A. Basermann, A. Gerndt, J. Hetherington, T. Krüger, G. Matura, R. Nash. Enabling in situ pre- and post-processing for exascale hemodynamic simulations. Supercomputing 2012 - Workshop: Preparing Applications for Exascale Through Co-design
  4. J. Harting, F. Janoschek, B. Kaoui, T. Krüger, F. Toschi. Simplified models for coarse-grained hemodynamics simulations. Proceedings of the 3rd European Conference on Microfluidics (Microfluidics 2012)

Dissertation