Total Citations: 3060, Citations/Publication: 26.61, h-index: 33. (Last update: 02/19/2025)
For access to simulation code or data email Professor Shattuck:
[markdshattuck@gmail.com].
[8] [87] A Boromand, A Signoriello, FF Ye, CS O'Hern, MD Shattuck, Jamming of Deformable Polygons, Phys. Rev. Lett. 121(24):248003(5) 2018. PMID:30608748. [Citations: 87]. [abs][pdf][sup]
[40] [26] K Wang, V Bhandari, S Chepustanova, G Huber, S O'Hara, CS O'Hern, MD Shattuck, M Kirby, Which Biomarkers Reveal Neonatal Sepsis?, Plos One 8(12):e82700(8) 2013. PMID:24367543. [Citations: 26]. [abs][pdf]
[90] [3] A Parsa, D Wang, CS O'Hern, MD Shattuck, R Kramer-bottiglio, J Bongard, Evolving Programmable Computational Metamaterials, Proceedings Of The 2022 Genetic And Evolutionary Computation Conference (gecco'22), ed. JE Fieldsend, Proceedings Of The 2022 Genetic And Evolutionary Computation Conference (gecco'22):122(8) 2022. [Citations: 3]. [abs][pdf]
[91] [3] MD Shattuck, C Bizon, PB Umbanhowar, JB Swift, HL Swinney, 2d Vertically Vibrated Granular Media: Experiment and Simulation, Powders & Grains 97, ed. RP Behringer, JT Jenkins, Powders & Grains 97:429(3) 1997. [Citations: 3]. [abs][pdf]
[101] [1] A Parsa, D Wang, CS O'Hern, MD Shattuck, R Kramer-bottiglio, J Bongard, Evolution of Acoustic Logic Gates in Granular Metamaterials, Applications Of Evolutionary Computation (evoapplications 2022), ed. JLJ Laredo, JI Hidalgo, KO Babaagba, Lecture Notes In Computer Science:93(17) 2022. [Citations: 1]. [abs]
[102] [1] C Bizon, MD Shattuck, JB Swift, HL Swinney, Velocity Correlations in Driven Two-dimensional Granular Media, Dynamics: Models And Kinetic Methods For Non-equilibrium Many Body Systems, ed. J Karkheck, Nato Advanced Science Institutes Series, Series E, Applied Sciences 371:361(11) 2000. [Citations: 1]. [abs][pdf]
[116] CS O'Hern, CF Schreck, RS Hoy, MD Shattuck, Reversibility and Irreversibility in Oscillatory Shear Flows of Model Granular Media, Abstr. Pap. Am. Chem. Soc. 244:(1) 2012.
[117] MD Shattuck, Flows in Porous Media: Visualization by Magnetic Resonance Imaging, PhD Dissertation, Department of Physics, Duke University, Durham, NC:(194 pages.) 1995. [abs][pdf]
