- Seiji Yunoki, “Spin dynamics in two-dimensional S=1/2 antiferromagnets — fate of single magnon excitations —”, The 10th International Conference on Computational Physics (ICCP10), Macao, China (January, 2017)
- Seiji Yunoki, “Metal-insulator transition in 2D interacting Dirac electrons”hiral Matter from Quarks to Dirac semimetals, Wako, Japan (December 5-8, 2016)
- Seiji Yunoki, “Emergence of massless Dirac quasiparticles in correlated hydrogenated graphene with broken sublattice symmetry”The 11th Anniversary General Meeting of Asian Consortium on Computational Materials Science (ACCMS), Sendai, Japan (November, 2016)
- Seiji Yunoki, “Quantum criticality of the metal-insulator transition and possible spin liquid in 2D Hubbard models”The 2nd Conference on Condensed Matter Physics, Nanjing, China (July 20-22, 2016)
- Seiji Yunoki, “Microscopic model study of strongly correlated 5d transition metal Ir oxides”, IUMRS 2016 Symposium Z “Materials Simulation, Computation and Design”, Qingdao, China (October, 2016)
- Seiji Yunoki, “Superconductivity and metal-insulator transition in 5d iridium oxides”The 10th Anniversary General Meeting of Asian Consortium on Computational Materials Science (ACCMS), Sendai, Japan (November 1-3, 2015)
- Tomonori Shirakawa, “Ground state phase diagram of the Hubbard model on the triangular lattice at half-filling”The 1st International Conference on Computational Design and Simulation of Materials (CDSM 2015), Shenyang, China (August 17-20, 2015)
- Seiji Yunoki, “Carrier doped Mott insulator in iridates”The 1st International Conference on Computational Design and Simulation of Materials (CDSM 2015), Shenyang, China (August 17-20, 2015)
- Seiji Yunoki, “Block Lanczos density-matrix renormalization group method for Anderson impurity models: Application to pseudogap Kondo problems”Workshop and Symposium on DMRG Technique for Strongly Correlated Systems in Physics and Chemistry, Natal, Brazil (June 22-27, 2015)
- Seiji Yunoki, “Universal quantum criticality in the metal-insulator transition of two-dimensional interacting Dirac electrons”Novel Computational Methods for Quantitative Electronic Structure Calculations, Kobe, Japan (June 16-20, 2015)