Thomas L. Daniel

University of Washington, Seattle, Seattle, WA 
"Thomas Daniel"
Mean distance: 14.34 (cluster 39)


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Steve Vogel grad student Duke (Biomechanics Tree)
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Stanchak KE, Deora T, Weber AI, et al. (2023) Intraspecific variation in the placement of campaniform sensilla on the wings of the hawkmoth . Biorxiv : the Preprint Server For Biology
Weber AI, Babaei M, Mamo A, et al. (2023) Nonuniform structural properties of wings confer sensing advantages. Journal of the Royal Society, Interface. 20: 20220765
Wang H, Swore J, Sharma S, et al. (2023) A complete biomechanical model of contractile behaviors, from neural drive to muscle to movement. Proceedings of the National Academy of Sciences of the United States of America. 120: e2210439120
Deora T, Ahmed MA, Brunton BW, et al. (2021) Learning to feed in the dark: how light level influences feeding in the hawkmoth . Biology Letters. 17: 20210320
Cass JA, Williams CD, Irving TC, et al. (2021) A mechanism for sarcomere breathing: volume change and advective flow within the myofilament lattice. Biophysical Journal
Weber AI, Daniel TL, Brunton BW. (2021) Wing structure and neural encoding jointly determine sensing strategies in insect flight. Plos Computational Biology. 17: e1009195
Malingen SA, Asencio AM, Cass JA, et al. (2020) x-ray diffraction and simultaneous EMG reveal the time course of myofilament lattice dilation and filament stretch. The Journal of Experimental Biology
Mohren TL, Daniel TL, Eberle AL, et al. (2019) Coriolis and centrifugal forces drive haltere deformations and influence spike timing. Journal of the Royal Society, Interface. 16: 20190035
Mohren TL, Daniel TL, Brunton SL, et al. (2018) Neural-inspired sensors enable sparse, efficient classification of spatiotemporal data. Proceedings of the National Academy of Sciences of the United States of America
Powers J, Williams C, Regnier M, et al. (2018) A spatially explicit model shows how titin stiffness modulates muscle mechanics and energetics. Integrative and Comparative Biology
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