- Han Xu, “Preparing Gutzwiller wave function for attractive SU(3) fermions on a quantum computer”The 267th R-CCS Cafe, Kobe (Aug. 23, 2024)
- 柚木 清司, “量子コンピュータを用いた量子ダイナミックスシミュレーション”第3回学術変革領域「学習物理」物性関係討論会, 東京 (2024年7月31日-8月1日)
- Seiji Yunoki and Netanel Lindner, “Pushing Forward for Quantum Advantage with Error Mitigation and HPC”(Plenary Talk), Q2B24 Tokyo (July 25-26, 2024)
- Seiji Yunoki, “Quantum many-body dynamics in digital quantum computers”第26回極限宇宙オンラインコロキウム (July 10, 2024)
- Junwen Lai, Jie Zhan, Peitao Liu, Tomonori Shirakawa, Seiji Yunoki, Xing-Qiu Chen, and Yan Sun, “Universal Enhancement Effect of Nonlinear Optical Response from Band Hybridization”Adv. Optical Mater. 12, 2401143 (2024)
- Yuri Alexeev et al. (102 authors including Seiji Yunoki), “Quantum-centric Supercomputing for Materials Science: A Perspective on Challenges and Future Directions”Future Generation Computer Systems 160, 666 (2024)
- Seiji Yunoki, “Unveiling clean two-dimensional discrete time quasicrystals on a digital quantum computer”IBM Quantum Partner Forum 2024 (May 13-15, 2024, Milan)
- Javier Robledo-Moreno, Mario Motta, Holger Haas, Ali Javadi-Abhari, Petar Jurcevic, William Kirby, Simon Martiel, Kunal Sharma, Sandeep Sharma, Tomonori Shirakawa, Iskandar Sitdikov, Rong-Yang Sun, Kevin J. Sung, Maika Takita, Minh C. Tran, Seiji Yunoki, Antonio Mezzacapo, “Chemistry Beyond Exact Solutions on a Quantum-Centric Supercomputer”arXiv:2405.05068
- Kazuma Nagao, Ippei Danshita, Seiji Yunoki, “Discrete phase-space approach for driven-dissipative dynamics of strongly interacting Bose gases in optical lattices”YITP Workshop: Quantum Simulation of Novel Phenomena with Ultracold Atoms and Molecules: Kyoto, Kyoto (April 22-25, 2024)
- 柚木 清司, “物性物理学における量子コンピュータ応用”KEK 素核研物構研 連携研究会 2024, 高エネルギー加速器機構, つくば (March 25-26, 2024)
- Kazuya Shinjo, Kazuhiro Seki, Tomonori Shirakawa, Rong-Yang Sun, Seiji Yunoki, “Unveiling clean two-dimensional discrete time quasicrystals on a digital quantum computer”arXiv:2403.16718
- Yuichi Otsuka and Seiji Yunoki, “Kekulé valence bond order in the Hubbard model on the honeycomb lattice with possible lattice distortions for graphene”Phys. Rev. B 109, 115131(2024)
