Herminghaus Gruppe

Zeitschriftenartikel (12)

  1. 1.
    Gompper, G.; Bechinger, C.; Herminghaus, S.; Isele-Holder, R.; Kaupp, U. B.; Löwen, H.; Stark, H.; Winkler, R. G.: Microswimmers – From single particle motion to collective behavior. The European Physical Journal Special Topics 225 (11), S. 2061 - 2064 (2016)
  2. 2.
    Delarue, M.; Hartung, J.; Schreck, C.; Gniewek, P.; Hu, L.; Herminghaus, S.; Hallatschek, O.: Self-driven jamming in growing microbial populations. Nature Physics 12 (8), S. 762 - 766 (2016)
  3. 3.
    Semprebon, C.; Scheel, M.; Herminghaus, S.; Seemann, R.; Brinkmann, M.: Liquid morphologies and capillary forces between three spherical beads. Physical Review E 94 (1), 012907 (2016)
  4. 4.
    Krüger, C.; Bahr, C.; Herminghaus, S.; Maass, C. C.: Dimensionality matters in the collective behaviour of active emulsions. The European Physical Journal E 39 (6), 64 (2016)
  5. 5.
    Petit, J.; Polenz, I.; Baret, J.-C.; Herminghaus, S.; Bäumchen, O.: Vesicles-on-a-chip: A universal microfluidic platform for the assembly of liposomes and polymersomes. The European Physical Journal E 39 (6), 59 (2016)
  6. 6.
    Laskar, J. M.; Kumar, P. S.; Herminghaus, S.; Daniels, K. E.; Schröter, M.: High refractive index immersion liquid for superresolution 3D imaging using sapphire-based aplanatic numerical aperture increasing lens optics. Applied Optics 55 (12), S. 3165 - 3169 (2016)
  7. 7.
    Dufour, R.; Semprebon, C.; Herminghaus, S.: Filling transitions on rough surfaces: Inadequacy of Gaussian surface models. Physical Review E 93 (3), 032802 (2016)
  8. 8.
    Maass, C. C.; Krüger, C.; Herminghaus, S.; Bahr, C.: Swimming droplets. Annual Review of Condensed Matter Physics 7, S. 171 - 193 (2016)
  9. 9.
    Breier, R. E.; Selinger, R. L. B.; Cicotti, G.; Herminghaus, S.; Mazza, M. G.: Spontaneous chiral symmetry breaking in collective active motion. Physical Review E 93 (2), 022410 (2016)
  10. 10.
    Clewett, J. P. D.; Wade, J.; Bowley, R.M.; Herminghaus, S.; Swift, M. R.; Mazza, M. G.: The minimization of mechanical work in vibrated granular matter. Scientific Reports 6, 28726 (2016)
  11. 11.
    Herminghaus, S.; Thomas, K. R.; Aliaskarisohi, S.; Porada, H.; Goehring, L.: Kinneyia: A flow-induced anisotropic fossil pattern from ancient microbial mats. Frontiers in Materials 3, 30 (2016)
  12. 12.
    Jung, M.; Brinkmann, M.; Seemann, R.; Hiller, T.; Sanchez de la Lama, M.; Herminghaus, S.: Wettability controls slow immiscible displacement through local interfacial instabilities. Physical Review Fluids 1 (7), 074202 (2016)
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