A review of David Gottlieb’s work on the resolution of the Gibbs phenomenon S Gottlieb, JH Jung, S Kim Communications in Computational Physics 9 (3), 497-519, 2011 | 46 | 2011 |

Iterative adaptive RBF methods for detection of edges in two-dimensional functions JH Jung, S Gottlieb, SO Kim Applied numerical mathematics 61 (1), 77-91, 2011 | 26 | 2011 |

Partial polar decomposition inverse method applied to determination of internal stresses in an elastic complex structure BCP Burke, SO Kim, KS Kim International Journal of Solids and Structures 44 (6), 2010-2020, 2007 | 18 | 2007 |

Recovery of high order accuracy in radial basis function approximations of discontinuous problems JH Jung, S Gottlieb, SO Kim, CL Bresten, D Higgs Journal of Scientific Computing 45 (1), 359-381, 2010 | 15 | 2010 |

Mathematics Curriculum, Teacher Professionalism, and Supporting Policies in Korea and the United States: Summary of a Workshop National Academies of Sciences, Engineering, and Medicine National Academies Press, 2015 | 8 | 2015 |

Projective resolutions of generic order ideals SO Kim University of Illinois at Urbana-Champaign, 1988 | 5 | 1988 |

Useful conservation sums in molecular dynamics and atomistics SO Kim, YY Earmme, KS Kim Mathematics and mechanics of solids 15 (8), 885-895, 2010 | 3 | 2010 |

A Review Article of David Gottlieb’s Work on the Resolution of the Gibbs Phenomenon, volume x of Communications in Computational Physics S Gottlieb, JH Jung, S Kim Global-Science Press, 2010 | 2 | 2010 |

Repairing noncommutative diagrams SO Kim Journal of Algebra 161 (2), 311-323, 1993 | 1 | 1993 |

Projective Resolutions of Generic Order Ideals SO Kim Journal of Algebra 191 (1), 279-330, 1997 | | 1997 |

Connectedness of a variety generated by an order ideal on the punctured spectrum SO Kim Communications in algebra 24 (9), 2931-2943, 1996 | | 1996 |

Connectedness of a variety generated by an order ideal on the punctured spectrum SO Kim Brown University, 1985 | | 1985 |

Transformation of a Mathematics Department’s Teaching and Research Through a Focus on Computational Science Y Chen, A Hausknecht, G Davis, A Heryudono, S Gottlieb, S Kim | | |