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Distribution of topological types in grain-growth microstructures, EA Lazar, JK Mason, RD MacPherson, and DJ Srolovitz, Physical Review Letters 2020;125:015501 |
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Statistical topology of bond networks with applications to silica, B Schweinhart, D Rodney, JK Mason, Physical Review E 2020;101:052312 |
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Continuous and optimally complete description of chemical environments using Spherical Bessel descriptors, E Kocer, JK Mason, H Ertürk, AIP Advances 2020;10:015021 |
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Green–Kubo assessments of thermal transport in nanocolloids based on interfacial effects, T Akıner, E Kocer, JK Mason, H Ertürk, Materials Today Communications 2019;20:100533 |
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A novel approach to describe chemical environments in high-dimensional neural network potentials, E Kocer, JK Mason, H Ertürk, The Journal of Chemical Physics 2019;150:154102 |
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Topological constraint theory for network glasses and glass-forming liquids: A rigid polytope approach, S Sen, J Mason, Frontiers in Materials 2019;6:213 |
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Thermal Characterization Assesment of Rigid and Flexible Water Models in a Nanogap Using Molecular Dynamics, T Akıner, J Mason, H Ertürk, Chemical Physics Letters 2017;687:270 |
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Roundness of grains in cellular microstructures, FH Lutz, JK Mason, EA Lazar, RD MacPherson, Physical Review E 2017;96:023001 |
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Nanolayering around and thermal resistivity of the water-hexagonal boron nitride interface, T Akıner, JK Mason, H Ertürk, The Journal of Chemical Physics 2017;147:044709 |
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Improved conditioning of the Floater–Hormann interpolants, JK Mason, arXiv:1706.07776 |
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Stability and motion of arbitrary grain boundary junctions, JK Mason, Acta Materialia 2017;125:286 |
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A new interlayer potential for hexagonal boron nitride, T Akıner, JK Mason, H Ertürk, Journal of Physics: Condensed Matter 2016;28:385401 |
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Topological similarity of random cell complexes and applications, B Schweinhart, JK Mason, RD MacPherson, Physical Review E 2015;92:063308 |
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Geometric and topological properties of the canonical grain-growth microstructure, JK Mason, EA Lazar, RD MacPherson, DJ Srolovitz, Physical Review E 2015;92:063308 |
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Grain boundary energy and curvature in Monte Carlo and cellular automata simulations of grain boundary motion, JK Mason, Acta Materialia 2015;94:162 |
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Kinetics and anisotropy of the Monte Carlo model of grain growth, JK Mason, J Lind, SF Li, BW Reed, M Kumar, Acta Materialia 2015;82:155 |
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Quadruple nodes and grain boundary connectivity in three dimensions, SF Li, JK Mason, J Lind, M Kumar, Acta Materialia 2014;46:220 |
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Statistical topology of three-dimensional Poisson-Voronoi cells and cell boundary networks, EA Lazar, JK Mason, RD MacPherson, DJ Srolovitz, Physical Review E 2013;88:063309 |
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Convergence of the hyperspherical harmonic expansion for crystallographic texture, JK Mason, OK Johnson, Journal of Applied Crystallography 2013;46:1772 |
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Statistics of twin-related domains and the grain boundary network, JK Mason, OK Johnson, BW Reed, SF Li, JS Stolken, M Kumar, Acta Materialia 2013;61:6524 |
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Topological view of the thermal stability of nanotwinned copper, T LaGrange, BW Reed, M Wall, J Mason, T Barbee, M Kumar, Applied Physics Letters 2013;102:011905 |
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Statistical topology of cellular networks in two and three dimensions, JK Mason, EA Lazar, RD MacPherson, DJ Srolovitz, Physical Review E 2012;86:051128 |
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Improved representation of misorientation information for grain boundary science and engineering, S Patala, JK Mason, CA Schuh, Progress in Materials Science 2012;57:1383 |
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Complete topology of cells, grains, and bubbles in three-dimensional microstructures, EA Lazar, JK Mason, RD MacPherson, DJ Srolovitz, Phyiscal Review Letters 2012;109:095505 |
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A geometric formulation of the law of Aboav–Weaire in two and three dimensions, JK Mason, R Ehrenborg, EA Lazar, Journal of Physics A: Mathematical and Theoretical 2012;45:065001 |
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Computational topology for configuration spaces of hard disks, G Carlsson, J Gorham, M Kahle, J Mason, Physical Review E 2012;85:019905 |
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A more accurate three-dimensional grain growth algorithm, EA Lazar, JK Mason, RD MacPherson, DJ Srolovitz, Acta Materialia 2011;59:6837 |
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Expressing crystallographic textures through the orientation distribution function: conversion between the generalized spherical harmonic and hyperspherical harmonic expansions, JK Mason, CA Schuh, Metallurgical and Materials Transactions A 2009;40:2590 |
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The generalized Mackenzie distribution: disorientation angle distributions for arbitrary textures, JK Mason, CA Schuh, Acta Materialia 2009;57:4186 |
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The Relationship of the Hyperspherical Harmonics to SO(3), SO(4) and Orientation Distribution Functions, JK Mason, Acta Crystallographica A 2009:65:259 |
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Hyperspherical harmonics for the representation of crystallographic texture, JK Mason, CA Schuh, Acta Materialia 2008;56:6141 |
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Correlated grain-boundary distributions in two-dimensional networks, JK Mason, CA Schuh, Acta Crystallographica A 2007;63:315 |
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Determining the activation energy and volume for the onset of plasticity during nanoindentation, JK Mason, AC Lund, CA Schuh, Physical Review B 2006;73:054102 |
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Quantitative insight into dislocation nucleation from high-temperature nanoindentation experiments, CA Schuh, JK Mason, AC Lund, Nature Materials 2005;4:617 |
