| PS-1 | Chiduru Watanabe | Kobe University, Tokai University, JST CREST |
|---|---|---|
| Relationship between Structural Fluctuation and Positions of Helix 12 in Nuclear Receptors Studied by Molecular Dynamics Simulation | ||
| PS-2 | Ayaka Sakata | The University of Tokyo |
| Frustration of a finite replicated spin glass system | ||
| PS-3 | Takeo Hoshi | Tottori University |
| Novel algorithms for large-scale shifted linear equations based on Krylov subspace theory | ||
| PS-4 | Yuta Asano | Department of Physics, Ehime University |
| Precise determination of the melting point of a Lennard-Jones system | ||
| PS-5 | Ryo Tamura | Institute for Solid State Physics, University of Tokyo |
| First-Order Transition to Incommensurate Phase with Broken Lattice Rotation Symmetry in Frustrated Continuous Spin Systems | ||
| PS-6 | Yoshitomo Kamiya | Institute for Solid State Physics, University of Tokyo |
| Role of the interlayer-frustration | ||
| PS-7 | Yusuke Tomita | Institute for Solid State Physics, University of Tokyo |
| Monte Carlo Study of Two-Dimensional Dipolar Lattices | ||
| PS-8 | Yasuyuki Kato | Institute for Solid State Physics, University of Tokyo |
| Quantum Monte Carlo Method for Bose-Hubbard Model with Harmonic Confining Potential | ||
| PS-9 | Toshihiro Sato | Institute for Solid State Physics, University of Tokyo |
| Universal property of a quasi-2D Bose gas in the uniaxially-compressed harmonic trap | ||
| PS-10 | Takafumi Suzuki | Institute for Solid State Physics, University of Tokyo |
| Long-range Interaction Effect on Fractional Magnetization Plateaus in the Shastry-Sutherland Lattice Model | ||
| PS-11 | Shu Tanaka | Institute for Solid State Physics, University of Tokyo |
| Quantum Annealing for Fully Frustrated Systems | ||
| PS-12 | Keigo Hijii | Department of Physics, The University of Tokyo, CREST JST |
| An additional symmetry in nontrivial degeneracy and effects of fourth order anisotropy in single molecule magnets | ||
| PS-13 | Katsuyoshi Matsushita | Nanotechnology research institute (NRI), National Institute of Advanced Industrial Science and Technology (AIST) |
| Current induced geometrically confined magnetic structure and dynamics | ||
| PS-14 | Shuji Obata | Tokyo Denki University |
| A Simple Configulation Interaction Approach for Linear Combination of Valence Bond Method | ||
| PS-15 | Yuki Matsumoto and Tatsuaki Tsuda | Department of Applied Physics, Osaka City University |
| Spin-Peierls Transition of Quasi-One-Dimensional Spin System with Quantum Phonons | ||
| PS-16 | Ryo Igarashi | University of Tokyo |
| Partial order of frustrated Potts model | ||
| PS-17 | Haruhiko Matsuo | Department of Applied Physics, University of Tokyo |
| Cluster quantum Monte Carlo for p-state clock model | ||
| PS-18 | Susumu Yamada | Japan Atomic Energy Agency |
| Parallelization of dynamical DMRG for n-leg Hubbard model | ||
| PS-19 | Masaki Tezuka | Department of Physics, University of Tokyo |
| Fermi condensates in trapped ultracold atomic gases with population-imbalance | ||
| PS-20 | Akiko Masaki | Department of Physics, Tokyo Metropolitan University |
| Quantum Monte Carlo Calculation of Quasi-Long-Range Order in One-dimensionally Trapped Bose-Fermi Mixtures | ||
| PS-21 | Keisuke Yamamoto | Department of Physics, School of Science, The University of Tokyo |
| Successive phase transitions at finite temperatures toward the supersolid state in a three-dimensional extended Bose-Hubbard model | ||
| PS-22 | Shigetoshi Sota | Yukawa Institute for Theoretical Physics, Kyoto University |
| Low-temperature DMRG study for optical response in one-dimensional Mott insulators | ||
| PS-23 | Hiroyuki Ohtori | University of Tsukuba |
| Andreev reflection in ferromagnetic-metal/normal-metal/superconductor double junctions | ||
| PS-24 | Masahiko Okumura | Japan Atomic Energy Agency and CREST(JST) |
| Parallelized DMRG studies for atomic Fermi gas loaded on optical lattice | ||
| PS-25 | Takahiro Misawa | Department of Applied Physics, University of Tokyo |
| Gaussian-basis Monte Carlo study of two dimensional extended Hubbard model | ||
| PS-26 | Daisuke Tahara | University of Tokyo |
| Variational Monte Carlo Method with Quantum-Number Projection and Multi-Variable Optimization | ||
| PS-27 | Hiroshi Shinaoka | Department of Applied Physics, University of Tokyo |
| Soft Hubbard gaps in disordered itinerant models with short-range interaction | ||
| PS-28 | Hiroshi Tsukahara | National institute of advanced industrial science and technology |
| Magnetic Ordering and Exchange Interaction in Electron doped CaMnO3 | ||
| PS-29 | Tomoyuki Tamura | RICS-AIST |
| First-principles study on metal/TiO2 interface | ||
| PS-30 | Kazuma Nakamura | Department of Applied Physics, University of Tokyo |
| Ab initio low-energy model of huge materials: Alkali-cluster-in-zeolite and BEDT-TTF system | ||
| PS-31 | Yoshiro Nohara | Department of Physics, University of Tokyo, Department of Applied Physics, University of Tokyo |
| Electronic structure of LTA zeolite with K cluster | ||
| PS-32 | Yoshinari Takimoto | University of Tokyo |
| Dynamical nonlinear optical coefficients from real-time time-dependent density functional theory | ||
| PS-33 | Hirotoshi Hirai | University of Tokyo |
| Nonadiabatic Molecular Dynamics Simulation using Time-Dependent Density Functional Theory | ||
| PS-34 | Yoshihide Yoshimoto | Institute for Solid State Physics, University of Tokyo |
| Non-crystalline state of silicon studied by multicanonical simulation combined with first-principles calculation | ||
| PS-35 | Hidemaro Suwa | Department of Applied Physics, University of Tokyo |
| Quantum Monte Carlo Method for Particle Number Non-Conserved Systems and Application to Spin-Peierls Systems | ||
| PS-36 | Taichi Kosugi | Department of physics, University of Tokyo |
| First-principles study of new C60 polymers | ||
| PS-37 | Tomoki Kobori | University of Tokyo |
| Electronic Structure of a Protein based on FMO-LCMO method | ||
| PS-38 | Keitaro Sodeyama | University of Tokyo |
| Transcorrelated method applied to solids: analysis of the SCF effect | ||
| PS-39 | Koichi Kusakabe | Graduate School of Engineering Science, Osaka University |
| Theoretical design of graphene device structure with embedded edge states | ||
| PS-40 | Masahito Tsujikawa | Graduate School of Natural Science and Thechnology, Kanazawa University |
| Magnetic anisotropy and its finite electric field effect of the Pt/Fe/Pt(001) surface | ||
| PS-41 | Y. Gohda | University of Tokyo |
| Possibility of ferromagnetism due to cation vacancies in group-III nitrides | ||
| PS-42 | Kazuaki Kobayashi | National Institute for Materials Science |
| First-Principles Study of various BN polytypes | ||
| PS-43 | Tamotsu Hashimoto | National Institute of Advanced Industrial Science and Technology, Japan Fine Ceramics Center |
| Oxygen vacancy formation energy and its effect on spontaneous polarization in Bi4Ti3O12 by first-principles calculations | PS-44 | Hayato Shiba | Kyoto University |
| Structural and Dynamical Heterogeneities in 2D Melting | PS-45 | Luis Seabra | University of Bristol |
| Monte Carlo simulations of two dimensional frustrated magnets in high magnetic field | PS-46 | Nic Shannon | University of Bristol |
| First numerical evidence for a U(1) liquid phase in a 3D quantum dimer model | ||