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Changho Kim
Toward a realistic model of diffusion-limited aggregation: Rotation, size-dependent diffusivities, and settling
Polimeno, M., C. Kim, and F. Blanchette. 2022. “Toward a Realistic Model of Diffusion-Limited Aggregation: Rotation, Size-Dependent Diffusivities, and Settling”. ACS Omega 7: 40826-35.
General validity of the second fluctuation-dissipation theorem in the nonequilibrium steady state: Theory and applications
Zhu, Y., H. Lei, and C. Kim. 2023. “General Validity of the Second Fluctuation-Dissipation Theorem in the Nonequilibrium Steady State: Theory and Applications”. Phys. Scr. 98: 115402.
Projection method for the fluctuating hydrodynamics equations
Mancini, Marc, Maxime Theillard, and Changho Kim. 2022. “Projection Method for the Fluctuating Hydrodynamics Equations”. J. Comput. Phys. 463: 111288.
Water slippage on graphitic and metallic surfaces: Impact of surface packing structure and electron density tail
Cho, K.J., S. Gim, H.-K. Lim, C. Kim, and H. Kim. 2020. “Water Slippage on Graphitic and Metallic Surfaces: Impact of Surface Packing Structure and Electron Density Tail”. J. Phys. Chem. C 124: 11392.
Nature of intrinsic uncertainties in equilibrium molecular dynamics estimation of shear viscosity for simple and complex fluids
Kim, K.-S., M.H. Han, C. Kim, Z. Li, G.E. Karniadakis, and E.K. Lee. 2018. “Nature of Intrinsic Uncertainties in Equilibrium Molecular Dynamics Estimation of Shear Viscosity for Simple and Complex Fluids”. J. Chem. Phys 149: 044510.
Numerical method for solving stochastic differential equations with dichotomous noise.
Kim, C., E.K. Lee, and P. Talkner. 2006. “Numerical Method for Solving Stochastic Differential Equations With Dichotomous Noise.”. Phys. Rev. E 73: 026101.
A general scheme for studying the stochastic dynamics of a parametric oscillator driven by coloured noise.
Lee, H.J., C. Kim, J.G. Kim, and E.K. Lee. 2004. “A General Scheme for Studying the Stochastic Dynamics of a Parametric Oscillator Driven by Coloured Noise.”. J. Phys. A: Math. Gen. 37: 647.
Molecular dynamics studies of the melting kinetics of superheated crystals
Lee, J.H., C. Kim, and M.E. Colvin. 2022. “Molecular Dynamics Studies of the Melting Kinetics of Superheated Crystals”. J. Phys. Chem. C 126: 4199.