• Hiroshi Watanabe, Tomonori Shirakawa, and Seiji Yunoki, “Theoretical study of insulating mechanism in multiorbital Hubbard models with a large spin-orbit coupling: Slater versus Mott scenario in Sr₂IrO₄“Phys. Rev. B 89, 165115 (2014)
• Guglielmo Mazzola, Seiji Yunoki and Sandro Sorella, “Unexpectedly high pressure for molecular dissociation in liquid hydrogen by electric simulation”Nature Communications 5, 3487 (2014)
• 量⼦系物質科学セミナー: “Thermodynamic properties of a model for organic charge-transfer salts” (Dr. Jure Kokalj, Josef Stephan Institute, Slovenia), 2014年2⽉6⽇（理研神⼾AICS）
• 「京」物性セミナー（第13回）: 「有限次元スピングラス模型のレプリカ対称性の破れ」 （福島 孝治 ⽒、東京大学）、 2014年1⽉21⽇（理研神⼾AICS）
• Yan Sun, Zhicheng Zhong, Tomonori Shirakawa, Cesare Franchini, Dianzhong Li, Yiyi Li, Seiji Yunoki, and Xing-Qiu Chen, “Rocksalt SnS and SnSe: Native topological crystalline insulators”Phys. Rev. B 88, 235122 (2013)
• 白川 知功, “密度行列繰り込み群法を用いたグラフェン磁性不純物問題の解析”第３回強相関電子系理論の最前線－若手によるオープン・イノベー ション－, 那智勝浦 (2013年12月16日−18日)
• Seiji Yunoki, “Novel unconventional superconductivity in J_eff=1/2 Mott insulator for Ir oxides”First-QS²C Workshop on “Emergent Phenomena of Correlated Materials”, Tokyo, Japan (November 13-16, 2013)
• 「京」物性セミナー（第12回）: 「Phase Transition and Cooperative Phenomena in Cavity Systems」 （宮下 精⼆ ⽒、東京⼤学理学系研究科）、 2013年8⽉20⽇（理研神⼾AICS）
• Hiroshi Watanabe, Tomonori Shirakawa, and Seiji Yunoki, “Variational Monte Carlo study for the insulating mechanism of Sr₂IrO₄: from the viewpoint of energy gain”J. Phys: Conference Series 454, 012047 (2013)
• Shixun Zhang, Shinichi Yamagiwa, and Seiji Yunoki, “A study of parallelizing O(N ) Green-function-based Monte Carlo method for many fermions coupled with classical degrees of freedom”J. Phys: Conference Series 454, 012049 (2013)
• Atsushi Yamamoto and Seiji Yunoki, “Superfluidity of one-dimensional trapped fermionic optical lattices with spatially alternating interactions”J. Phys: Conference Series 454, 012067 (2013)
• Yuichi Otsuka, Seiji Yunoki, and Sandro Sorella, “Quantum Monte Carlo study of the half-filled Hubbard model on the honeycomb lattice”J. Phys: Conference Series 454, 012045 (2013)