| Title | |
| Preface | 3 |
| Conference photo | |
| NTSE-2018 Scientific Advisory and Organizing Committees | 4 |
| Program of International Conference on Nuclear Theory in the Supercomputing Era — 2018 (NTSE-2018) | 6 |
| Contents | 11 |
| Invited talks | |
| Y. Kim, I. J. Shin, A. M. Shirokov, M. Sosonkina, P. Maris and J. P. Vary, Daejeon16 NN interaction | 15 |
| R. Machleidt, What is wrong with our current nuclear forces? | 21 |
| Ulf-G. Meissner, Towards nuclear physics as precision science | 28 |
| Dean Lee, Recent advances in nuclear lattice simulations | 45 |
| W. Zuo, Three-body force effect on the properties of nuclear matter | 52 |
| F. Sammarruca, L. E. Marcucci, M. Viviani and R. Machleidt, Correlations in nuclear matter and nuclei | 64 |
| Feng Pan, Kristina D. Launey and Jerry P. Draayer, Algebraic solution of the isovector pairing problem | 73 |
| Chong Qi, Large-scale shell model calculations of heavy nuclei | 83 |
| I. Stetcu, A. Bulgac, S. Jin, K. J. Roche and N. Schunk, Modeling fission dynamics with leadership class computing capabilities | 91 |
| J. Terasaki, Examination of consistency of QRPA approach to double-beta decay | 100 |
| Kimiko Sekiguchi, Experimental approach to three-nucleon forces via three- and four-nucleon scattering | 108 |
| R. Skibinski, J. Golak, A. Grassi, V. Soloviov, K. Topolnicki, V. Urbanevych,Yu. Volkotrub, H. Witala, Nucleon-deuteron scattering with chiral semilocal coordinate space and momentum space regularized interactions | 115 |
| K. Topolnicki, J. Golak, R. Skibinski, H. Witala, Yu. Volkotrub, V. Soloviov, A. Grassi, 3H and 3He bound state calculations without angular momentum decomposition | 122 |
| Alexander K. Motovilov, Unphysical sheets and resonances for the Friedrichs–Faddeev model | 127 |
| V. A. Gradusov, V. A. Roudnev, E. A. Yarevsky and S. L. Yakovlev, Ab initio scattering calculation in three-body Coulomb systems: e+−H, e−− H and e+−He+ | 137 |
| Evgeny Epelbaum, Towards high-precision nuclear forces from chiral effective field theory | 150 |
| Pieter Maris, Ik Jae Shin and James P. Vary, Ab initio structure of p-shell nuclei with Chiral Effective Field Theory and Daejeon16 interactions | 168 |
| S. J. Dai, F. R. Xu, J. G. Li, B. S. Hu and Z. H. Sun, Continuum effect in resonant excitation spectra of weakly-bound nuclei | 183 |
| L. Coraggio and Y. Z. Ma, Shell-model study of calcium isotopic chain starting from chiral two- and three-body potentials | 192 |
| Tobias Frederico, Dyana C. Duarte, Wayne de Paula, Emanuel Ydrefors, Shaoyang Jia and Pieter Maris, Towards Minkowski space solutions of Dyson–Schwinger equations through un-Wick rotation | 199 |
| V. A. Karmanov, J. Carbonell and H. Sazdjian, Bound states of relativistic nature | 212 |
| Weijie Du, Yang Li, Xingbo Zhao and James P. Vary, Dynamical nucleon-pion system via basis light-front quantization | 224 |
| Chandan Mondal, Siqi Xu, Jiangshan Lan, Xingbo Zhao, Yang Li, Henry Lamm and James P. Vary, Nucleon form factors from basis light-front quantization | 239 |
| M. A. Caprio, P. J. Fasano, J. P. Vary, P. Maris and J. Hartley, Robust ab initio predictions for nuclear rotational structure in the Be isotopes | 250 |
| Nadezda A. Smirnova and Latsamy Xayavong, Isospin-symmetry breaking correction to superallowed 0+ → 0+ β-decay | 263 |
| J. P. Draayer, K. D. Launey, T. Dytrych, R. B. Baker, A. C. Dreyfuss, D. Kekejian and G. H. Sargsyan, Symmetry-adapted no-core shell-model calculationsfor probing the structure of atomic nuclei | 279 |
| Anna E. McCoy, Mark A. Caprio and Tomas Dytrych, Convergence in the symplectic no-core configuration interaction framework | 293 |
| Takashi Abe, Alpha-cluster structure from no-core Monte Carlo shell model | 301 |
| I. A. Mazur, A. M. Shirokov, I. J. Shin, A. I. Mazur, Y. Kim, P. Maris and J. P. Vary, Elastic n−6He scattering and 7He resonant states in the no-core shell model | 310 |
| Alphabetic list of the NTSE-2018 participants and last page | 319 |
