Computer vision – Eye tracking:
- B. Petersch, K. Dierkes. Gaze-angle dependency of pupil-size measurements in head-mounted eye tracking. In Behav. Res. Methods, 2021
- M. Tonsen, C. K. Baumann, K. Dierkes. A High-Level Description and Performance Evaluation of Pupil Invisible. In arXiv-cs, 2009.00508, 2020
- K. Dierkes, M. Kassner, A. Bulling. A fast approach to refraction-aware eye-model fitting and gaze prediction. In ETRA ’19: Symposium on Eye Tracking Research and Applications, 2019
- K. Dierkes, M. Kassner, A. Bullling, A novel approach to single camera, glint-free 3D eye model fitting including corneal refraction, ETRA ’18: Symposium on Eye Tracking Research and Applications, 2018
Computer Vision/Biophysics – Super-resolution micoscopy:
- A. G. Clark, K. Dierkes, E. Paluch, Monitoring actin cortex thickness in live cells, Biophys. J., 2013
Biophysics – Developmental and cell biology:
- A. D’Angelo*, K. Dierkes*, C. Carolis, G. Salbreux, J. Solon, In Vivo Force Application Reveals a Fast Tissue Softening and External Friction Increase during Early Embryogenesis, Current Biology, 29 (9), 2019 (* shared first authors)
- A. Sumi, P. Hayes, A. D’Angelo, J. Colombelli, G. Salbreux, K. Dierkes*, J. Solon, Adherens junction length during tissue contraction is controlled by the mechanosensitive activity of actomyosin and junctional recycling, Dev Cell, 2018 (* co-corresponding author)
- P. Chugh, A. G. Clark, M. B. Smith, D. A. D. Cassani, K. Dierkes, A. Ragab, P. P. Roux, G. Charras, G. Salbreux, E. K. Paluch, Actin cortex architecture regulates cell surface tension, Nat. Cell Biol., 2017
- N. Czerniak*, K. Dierkes*, A. D’Angelo, J. Colombelli, and J. Solon, Patterned contractile forces promote epidermal spreading and regulate segment positioning during Drosophila head involution, Curr. Biol., 2016 (* shared first authors)
- K. Dierkes, A. Sumi, J. Solon, and G. Salbreux, Spontaneous oscillations of elastic contractile materials with turnover, Phys. Rev. Lett., 2014
Biophysics – Hearing research/Noisy oscillators:
- K. Dierkes and B. Lindner, Haariges Hören – Haarzellen im Innenohr lassen sich als aktives Nichtgleichgewichts-System auffassen, Physik Journal, 2014
- K. Dierkes, F Jülicher, B. Lindner, A mean-field approach to elastically coupled hair bundles, Eur. Phys. J. E, 2012
- A. Neiman, K. Dierkes, B. Lindner, A. Shilnikov, Spontaneous voltage oscillations and response dynamics of a Hodgkin-Huxley type model of sensory hair cells, J. Math. Neurosci., 2012
- J. Ashmore, P. Avan, W.E. Brownell, P. Dallos, K. Dierkes, R. Fettiplace, K. Grosh, C.M. Hackney, A.J. Hudspeth, F. Jülicher, B. Lindner, P. Martin, J. Meaud, C. Petit, J.R. Santos Sacchi, B. Canlon, The remarkable cochlear amplifier, Hearing Research, 2010
- J. Barral*, K. Dierkes*, B. Lindner, F. Jülicher, and P. Martin, Coupling a sensory hair-cell bundle to cyber clones enhances nonlinear amplification, Proc. Natl. Acad. Sci. USA, 2010 (* shared first authors)
- B. Lindner, K. Dierkes, and F. Jülicher, Local exponents of nonlinear compression in periodically driven noisy oscillators, Phys. Rev. Lett., 2009
- F. Jülicher, K. Dierkes, B. Lindner, J. Prost, and P. Martin, Spontaneous movements and linear response of a noisy oscillator, Eur. Phys. J. E, 2009
- K. Dierkes, B. Lindner, F. Jülicher, Mechanical properties of coupled hair bundles, in Nigel P. Cooper and David T. Kemp (eds.), Concepts and Challenges in the Biophysics of Hearing (World Scientific, Singapore, 2009)
- K. Dierkes, B. Lindner, and F. Jülicher, Enhancement of sensitivity gain and frequency tuning by coupling of active hair bundles, Proc. Natl. Acad. Sci. USA, 2008