Journal Publications

Continuous and optimally complete description of chemical environments using Spherical Bessel descriptors, E Kocer, JK Mason, H Ertürk, AIP Advances 2020;10:015021
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
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
Topological constraint theory for network glasses and glass-forming liquids: A rigid polytope approach, S Sen, J Mason, Frontiers in Materials 2019;6:213
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
Roundness of grains in cellular microstructures, FH Lutz, JK Mason, EA Lazar, RD MacPherson, Physical Review E 2017;96:023001
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
Improved conditioning of the Floater–Hormann interpolants, JK Mason, arXiv:1706.07776
Stability and motion of arbitrary grain boundary junctions, JK Mason, Acta Materialia 2017;125:286
A new interlayer potential for hexagonal boron nitride, T Akıner, JK Mason, H Ertürk, Journal of Physics: Condensed Matter 2016;28:385401
Topological similarity of random cell complexes and applications, B Schweinhart, JK Mason, RD MacPherson, Physical Review E 2015;92:063308
Geometric and topological properties of the canonical grain-growth microstructure, JK Mason, EA Lazar, RD MacPherson, DJ Srolovitz, Physical Review E 2015;92:063308
Grain boundary energy and curvature in Monte Carlo and cellular automata simulations of grain boundary motion, JK Mason, Acta Materialia 2015;94:162
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
Quadruple nodes and grain boundary connectivity in three dimensions, SF Li, JK Mason, J Lind, M Kumar, Acta Materialia 2014;46:220
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
Convergence of the hyperspherical harmonic expansion for crystallographic texture, JK Mason, OK Johnson, Journal of Applied Crystallography 2013;46:1772
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
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
Statistical topology of cellular networks in two and three dimensions, JK Mason, EA Lazar, RD MacPherson, DJ Srolovitz, Physical Review E 2012;86:051128
Improved representation of misorientation information for grain boundary science and engineering, S Patala, JK Mason, CA Schuh, Progress in Materials Science 2012;57:1383
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
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
Computational topology for configuration spaces of hard disks, G Carlsson, J Gorham, M Kahle, J Mason, Physical Review E 2012;85:019905
A more accurate three-dimensional grain growth algorithm, EA Lazar, JK Mason, RD MacPherson, DJ Srolovitz, Acta Materialia 2011;59:6837
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
The generalized Mackenzie distribution: disorientation angle distributions for arbitrary textures, JK Mason, CA Schuh, Acta Materialia 2009;57:4186
The Relationship of the Hyperspherical Harmonics to SO(3), SO(4) and Orientation Distribution Functions, JK Mason, Acta Crystallographica A 2009:65:259
Hyperspherical harmonics for the representation of crystallographic texture, JK Mason, CA Schuh, Acta Materialia 2008;56:6141
Correlated grain-boundary distributions in two-dimensional networks, JK Mason, CA Schuh, Acta Crystallographica A 2007;63:315
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
Quantitative insight into dislocation nucleation from high-temperature nanoindentation experiments, CA Schuh, JK Mason, AC Lund, Nature Materials 2005;4:617

Book Sections

Representations of Texture. In: Schwartz, A.J., Kumar, M., Adams, B.L., and Field, D.P., editors. Electron Backscatter Diffraction in Materials Science. JK Mason, CA Schuh, Springer, 2009

Conference Proceedings

High temperature nanoindentation for the study of flow defects, CA Schuh, JK Mason, AC Lund, AM Hodge, MRS Proceedings 2004;841:R4.8

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