* Denotes equal contribution


“Anti-jamming in a fungal transport network” P.C. Hickey, H. Dou, S. Foshe and M. Roper [arXiv]

“Optimal congestion in a microvascular network” S.-S. Chang, S. Tu, Y.-H. Liu, V. Savage, S.-P. Hwang and M. Roper [arXiv]

"Pairwise interactions in inertially-driven one-dimensional microfluidic crystals" K. Hood and M. Roper [arXiv]

"A Gradient Descent Method for Optimization of Model Microvascular Networks", S.-S. Chang and M. Roper [arXiv]

"Minimal transport networks with general boundary conditions", S.-S. Chang and M. Roper [arXiv]


"Clustered nuclei maintain autonomy and nucleocytoplasmic ratio control in a syncytium" Mol. Biol. Cell. mbc.E16-02-0129v1.  S.E.R. Dundon, S.-S. Chang, A. Kumar, P. Occhipinti, H. Shroff, M. Roper and A.S. Gladfelter 

“Mushrooms use convectively created airflows to disperse their spores” Proc. Nat Acad. Sci., 113:2833–2838.  E. Dressaire, L. Yamada, B. Song and M. Roper [arXiv]

“Defining Individual Size in the Filamentous Fungus Neurospora crassaProc. Roy. Soc. Lond. Ser. B 283: 20152470. L. Ma, B. Song, T. Curran, N. Phong. E. Dressaire and M. Roper [arXiv]

“Direct Measurement of Particle Inertial Migration in Rectangular Microchannels” Lab on a Chip 16: 2840–2850. K. Hood, S. Kahkeshani, D. Di Carlo and M. Roper [arXiv]