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Insect and insect-inspired aerodynamics: unsteadiness, structural mechanics and flight control (2018)
Journal Article
Bomphrey, R. J., & Godoy-Diana, R. (2018). Insect and insect-inspired aerodynamics: unsteadiness, structural mechanics and flight control. Current Opinion in Insect Science, 30, https://doi.org/10.1016/j.cois.2018.08.003

Flying insects impress by their versatility and have been a recurrent source of inspiration for engineering devices. A large body of literature has focused on various aspects of insect flight, with an essential part dedicated to the dynamics of flapp... Read More about Insect and insect-inspired aerodynamics: unsteadiness, structural mechanics and flight control.

Smart wing rotation and trailing-edge vortices enable high frequency mosquito flight (2017)
Journal Article
Bomphrey, R. J., Nakata, T., Phillips, N., & Walker, S. M. (2017). Smart wing rotation and trailing-edge vortices enable high frequency mosquito flight. Nature, 544, 92-95. https://doi.org/10.1038/nature21727

Mosquitoes exhibit unusual wing kinematics; their long, slender wings flap at remarkably high frequencies for their size (>800 Hz)and with lower stroke amplitudes than any other insect group1. This shifts weight support away from the translation-domi... Read More about Smart wing rotation and trailing-edge vortices enable high frequency mosquito flight.

Flight of the dragonflies and damselflies (2016)
Journal Article
Bomphrey, R. J., Nakata, T., Henningsson, P., & Lin, H. (2016). Flight of the dragonflies and damselflies. Philosophical Transactions of the Royal Society B: Biological Sciences, 371(1704), 20150389. https://doi.org/10.1098/rstb.2015.0389

This work is a synthesis of our current understanding of the mechanics, aerodynamics and visually mediated control of dragonfly and damselfly flight, with the addition of new experimental and computational data in several key areas. These are: the di... Read More about Flight of the dragonflies and damselflies.

Morphomechanical Innovation Drives Explosive Seed Dispersal (2016)
Journal Article
Hofhuis, H., Moulton, D., Lessinnes, T., Routier-Kierzkowska, A. L., Bomphrey, R. J., Mosca, G., …Hay, A. (2016). Morphomechanical Innovation Drives Explosive Seed Dispersal. Cell, 166, 222-233. https://doi.org/10.1016/j.cell.2016.05.002

How mechanical and biological processes are coordinated across cells, tissues, and organs to produce complex traits is a key question in biology. Cardamine hirsuta, a relative of Arabidopsis thaliana, uses an explosive mechanism to disperse its seeds... Read More about Morphomechanical Innovation Drives Explosive Seed Dispersal.

Enhanced flight performance by genetic manipulation of wing shape in Drosophila (2016)
Journal Article
Ray, R. P., Nakata, T., Henningsson, P., & Bomphrey, R. J. (2016). Enhanced flight performance by genetic manipulation of wing shape in Drosophila. Nature Communications, 7, https://doi.org/10.1038/ncomms10851

Insect wing shapes are remarkably diverse and the combination of shape and kinematics determines both aerial capabilities and power requirements. However, the contribution of any specific morphological feature to performance is not known. Using targe... Read More about Enhanced flight performance by genetic manipulation of wing shape in Drosophila.

A CFD-informed quasi-steady model of flapping-wing aerodynamics (2015)
Journal Article
Nakata, T., Liu, H., & Bomphrey, R. J. (2015). A CFD-informed quasi-steady model of flapping-wing aerodynamics. Journal of Fluid Mechanics, 783, 323-343. https://doi.org/10.1017/jfm.2015.537

Aerodynamic performance and agility during flapping flight are determined by the combination of wing shape and kinematics. The degree of morphological and kinematic optimization is unknown and depends upon a large parameter space. Aimed at providing... Read More about A CFD-informed quasi-steady model of flapping-wing aerodynamics.

The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing (2015)
Journal Article
Phillips, N., Knowles, K., & Bomphrey, R. J. (2015). The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing. https://doi.org/10.1088/1748-3190/10/5/056020

Insect wing shapes are diverse and a renowned source of inspiration for the new generation of autonomous flapping vehicles, yet the aerodynamic consequences of varying geometry is not well understood. One of the most defining and aerodynamically sign... Read More about The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing.

The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry (2015)
Journal Article
Henningsson, P., Michaelis, D., Nakata, T., Schanz, D., Geisler, R., Schroeder, A., & Bomphrey, R. J. (2015). The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry. https://doi.org/10.1098/rsif.2015.0119

Particle image velocimetry has been the preferred experimental technique with which to study the aerodynamics of animal flight for over a decade. In that time, hardware has become more accessible and the software has progressed from the acquisition o... Read More about The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry.

Iodine vapor staining for atomic number contrast in backscattered electron and X-ray imaging (2014)
Journal Article
Boyde, A., McCorkell, F. A., Taylor, G. K., Bomphrey, R. J., & Doube, M. (2014). Iodine vapor staining for atomic number contrast in backscattered electron and X-ray imaging. Microscopy Research and Technique, 77(12), 1044-1051. https://doi.org/10.1002/jemt.22435

Iodine imparts strong contrast to objects imaged with electrons and X‐rays due to its high atomic number (53), and is widely used in liquid form as a microscopic stain and clinical contrast agent. We have developed a simple technique which exploits e... Read More about Iodine vapor staining for atomic number contrast in backscattered electron and X-ray imaging.