| Differential dynamic microscopy: a high-throughput method for characterizing the motility of microorganisms VA Martinez, R Besseling, OA Croze, J Tailleur, M Reufer, ... Biophysical journal 103 (8), 1637-1647, 2012 | 152 | 2012 |
| Wavelengths of bioconvection patterns MA Bees, NA Hill Journal of experimental biology 200 (10), 1515-1526, 1997 | 137 | 1997 |
| Taylor dispersion of gyrotactic swimming micro-organisms in a linear flow NA Hill, MA Bees Physics of Fluids 14 (8), 2598-2605, 2002 | 105 | 2002 |
| Linear bioconvection in a suspension of randomly swimming, gyrotactic micro-organisms MA Bees, NA Hill Physics of Fluids 10 (8), 1864-1881, 1998 | 102 | 1998 |
| Generic dynamics of a simple plankton population model with a non-integer exponent of closure AM Edwards, MA Bees Chaos, Solitons & Fractals 12 (2), 289-300, 2001 | 98 | 2001 |
| Advances in bioconvection MA Bees Annual Review of Fluid Mechanics 52 (1), 449-476, 2020 | 95 | 2020 |
| Dispersion of swimming algae in laminar and turbulent channel flows: consequences for photobioreactors OA Croze, G Sardina, M Ahmed, MA Bees, L Brandt Journal of the Royal Society Interface 10, 20121041, 2013 | 87 | 2013 |
| A tale of three taxes: photo-gyro-gravitactic bioconvection CR Williams, MA Bees Journal of Experimental Biology 214 (14), 2398-2408, 2011 | 84 | 2011 |
| Plankton blooms induced by turbulent flows R Reigada, RM Hillary, MA Bees, JM Sancho, F Sagués Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2003 | 74 | 2003 |
| The luminance–response function of the human photopic electroretinogram: A mathematical model R Hamilton, MA Bees, CA Chaplin, DL McCulloch Vision research 47 (23), 2968-2972, 2007 | 61 | 2007 |
| Analytical approximations for the orientation distribution of small dipolar particles in steady shear flows MA Bees, NA Hill, TJ Pedley Journal of Mathematical Biology 36, 269-298, 1998 | 61 | 1998 |
| Biased swimming cells do not disperse in pipes as tracers: a population model based on microscale behaviour RN Bearon, MA Bees, OA Croze Physics of fluids 24 (12), 2012 | 57 | 2012 |
| The orientation of swimming biflagellates in shear flows S O’Malley, MA Bees Bulletin of mathematical biology 74, 232-255, 2012 | 56 | 2012 |
| Photo-gyrotactic bioconvection CR Williams, MA Bees Journal of fluid mechanics 678, 41-86, 2011 | 54 | 2011 |
| The interaction of thin-film flow, bacterial swarming and cell differentiation in colonies of Serratia liquefaciens MA Bees, P Andresen, E Mosekilde, M Givskov Journal of Mathematical Biology 40, 27-63, 2000 | 54 | 2000 |
| Mathematics for streamlined biofuel production from unicellular algae MA Bees, OA Croze Biofuels 5 (1), 53-65, 2014 | 49 | 2014 |
| Dispersion of biased swimming micro-organisms in a fluid flowing through a tube MA Bees, OA Croze Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2010 | 49 | 2010 |
| Pattern formation in the Methylene-Blue Glucose system. AJ Pons, PG Sorenson, MA Bees, F Sagués J. Phys. Chem 104 (10), 2251-2259, 2000 | 47 | 2000 |
| Non-linear bioconvection in a deep suspension of gyrotactic swimming micro-organisms MA Bees, NA Hill Journal of Mathematical Biology 38, 135-168, 1999 | 42 | 1999 |
| Chemoconvection: A chemically driven hydrodynamic instability MA Bees, AJ Pons, PG Sørensen, F Sagués The Journal of Chemical Physics 114 (4), 1932-1943, 2001 | 39 | 2001 |
Ottavio A. CrozeSchool of Mathematics, Statistics and Physics, University of Newcastle在 physics.org 的电子邮件经过验证
