Publications

PreprintS / sUB JURIS

[19] N. P. Mitchell*, M. F. Levebvre*, V. Jain-Sharma*, N. H. Claussen, M. K. Raich, H. J. Gustafson, A. R. Bausch, S. J. Streichan. “Morphodynamic atlas of Drosophila development.” [biorxiv] *equal contribution [under review]
Featured in: Montequinn, A. Prelights digest. [link]

[18] N. P. Mitchell*, D. J. Cislo*. “TubULAR: Tracking in toto deformations of dynamic tissues via constrained maps.” [biorxiv] [in revision]

[17] A. M. Gabbert, J. A. Mondo, J. P. Campanale, N. P. Mitchell, A. Myers, S. J. Streichan, N. Miolane, D. J. Montell, “Septins regulate border cell shape and surface geometry downstream of Rho.” [biorxiv] [in revision]

Published

[16] M. F. Lefebvre*, N. H. Claussen*, N. P. Mitchell, H. J. Gustafson, S. J Streichan. “Geometric control of Myosin-II orientation during axis elongation.” eLife 12:e78787 (2023) [biorxiv, Full text]

[15] T. Matsuzawa, N. P. Mitchell, S.  Perrard, W. T. M. Irvine. “Creation of an isolated turbulent blob fed by vortex rings.” Nature Physics (2023) [arxiv, Full text]

[14] N. P. Mitchell, D. J. Cislo, S. Shankar, Y. Lin, B. I. Shraiman, S. J. Streichan, “Visceral organ morphogenesis via calcium-patterned muscle contractions.” eLife 11:e77355 (2022) [Full text]
     – Featured in: Devenport, D. “Gut development: a squash and a squeeze.” eLife Insights 11:e80416 (2022) [link]

[13] A. Khanra, L. L. Jia, N. P. Mitchell, A. Balchunas, R. A. Pelcovits, T. R. Powers, Z. Dogic, P. Sharma. “Controlling the shape and topology of two-component colloidal membranes.” Proceedings of the National Academy of Sciences 119 (32) e2204453119 (2022) [arxiv, Full text]

[12] B. Lemma, N. P. Mitchell, R. Subramanian, D. J. Needleman, Z. Dogic. “Active microphase separation in mixtures of microtubules and tip-accumulating molecular motors.” Physical Review X Phys. Rev. X 12, 031006 (2022) [arxiv, Full text]

[11] N. P. Mitchell, A. M. Turner, W. T. M. Irvine. “Real-space origin of topological band gaps, localization, and re-entrant phase transitions in gyroscopic metamaterials.” Physical Review E, 104, 025007 (2021) [arxiv, Full text]

[10] N. P. Mitchell, Geometric Control of Fracture and Topological Metamaterials. Springer Nature (2020) [Full text]

[9] N. P. Mitchell*, R. Carey*, J. Hannah, Y. Wang, M. Cortes, S. McBride, H. Jaeger. “Conforming nanoparticle sheets onto surfaces with Gaussian curvature.” Soft Matter, 14, 9107 – 9117 (2018) [Full textarxiv] *equal contribution

[8] N. P. Mitchell, L. M. Nash, W. T. M. Irvine. “Tunable band topology in gyroscopic lattices.” Physical Review B, 98, 174301 (2018) [Full text, arxiv]
     – Featured in: Middleton, C. “Topological insulators: from graphene to gyroscopes.” Physics Today 10.1063/pt.6.3.20181127a (2018)

[7] N. P. Mitchell, L. M. Nash, W. T. M. Irvine. “Realization of a topological phase transition in gyroscopic lattices.” Physical Review B 97, 100302(R) (2018) [Full text, arxiv]
     – Featured in: Middleton, C. “Topological insulators: from graphene to gyroscopes.” Physics Today 10.1063/pt.6.3.20181127a (2018). Also featured in: Phys.org, Space Daily, ChemEurope, Science Newsline, Nanowerk Nanotechnology News, AAAS EurekAlert, UChicago News

[6] N. P. Mitchell, L. M. Nash, D. Hexner, A. M. Turner, W. T. M. Irvine. “Amorphous topological insulators constructed from random point sets.” Nature Physics 14380–385 (2018). [Full text, arxiv]
      – Featured in: Middleton, C. “Topological insulators: from graphene to gyroscopes.” Physics Today 10.1063/pt.6.3.20181127a (2018). Also featured in: Phys.org, Space Daily, ChemEurope, Science Newsline, Nanowerk Nanotechnology News, AAAS EurekAlert, UChicago News

[5] N. P. Mitchell, V. Koning, V. Vitelli, W. T. M. Irvine, “Fracture in sheets draped on curved surfaces.” Nature Materials 16, 89-93 (2017) [Full text, arxiv]
     – Featured in: K. Kamrin, “Elastic Sheets: Cracks by Design.” Nature Materials 16,8-9 (2017). Also featured in: University of Leiden News.

[4] D. E. NitzJ. CurryM. BuuckA. DeMannN. P. Mitchell, W. Shull, “Transition probabilities of Ce I obtained from Boltzmann analysis of visible and near-infrared emission spectra.” J. Phys. B: At. Mol. Opt. Phys. 51 045007 (2018) [Full text]

[3] K. B. W. McQuinn, E. D. Skillman, T. N. Heilman, N. P. Mitchell, T. Kelley. “Galactic outflows, star formation histories, and timescales in starburst dwarf galaxies from STARBIRDS.” Monthly Notices of the Royal Astronomical Society, Volume 477, Issue 3, 1 January 1753, Pages 3164–3177, (2018) [Full text, arxiv]

[2] K. B. W. McQuinn, E. D. Skillman, A. E. Dolphin, N. P. Mitchell. “Calibrating UV star formation rates for dwarf galaxies from STARBIRDS.” The Astrophysical Journal 808 109 (2015). [Full text, arxiv]

[1] K. B. W. McQuinn, N. P. Mitchell, E. D. Skillman. “The Panchromatic Starburst Irregular Dwarf Survey (STARBIRDS): Observations and Data Archive”, The Astrophysical Journal Supplement Series 218 29 (2015). [Full text, arxiv]
     – Featured in: J. Hargis. “High Level Science Products: The STARBurst IRregular Dwarf Survey (STARBIRDS).” MAST News, April 2017.