Figure 1: Barbara Latacz, a member of the BASE team at CERN, adjusting the BASE experiment’s cryostat. The new device can cool an antiproton in just 8 minutes ...
Our laboratory is aiming to develop novel applications of thin-film devices such as organic electronics as well as to explore their fundamental study. More specifically, electronic and/or photonic ...
A structural analysis provides insights into how an unusual variety of amyloid beta fibrils form in familial Alzheimer’s Figure 1: A new W-shaped structural model of E22G 40-residue beta-amyloid ...
On October 4, RIKEN and Brookhaven National Laboratory (BNL) held the RIKEN-BNL Joint Workshop with RIKEN President Gonokami and BNL Laboratory Director JoAnne Hewett in attendance. The morning ...
This Group conducts programs at “RI Beam Factory (RIBF)”, and explores exotic nuclear structures and dynamics in exotic nuclei with largely imbalanced proton and neutron numbers. Our aim is to develop ...
The missions of the RIKEN Center for Quantum Computing (RQC) are to deepen our understanding of quantum mechanics and quantum information, develop techniques for quantum control and measurement, build ...
Our laboratory aims to contribute to solving social issues such as the decrease and depletion of natural resources and to advance environmental resource science research through research on chemical ...
(NIMS Electron Microscopy Group, Advanced Materials Characterization Field, Center for Basic Research on Materials) ...
We are pleased to announce that the RIKEN BDR Symposium 2025 "Towards Redesigning Lifecycles" will be held on March 3 to 5, 2025 at RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. We hope ...
理化学研究所、東京科学大学、株式会社フィックスターズ、日本電信電話株式会社、富士通株式会社による共同研究グループ※は、大規模グラフ解析に関するスーパーコンピュータの国際的な性能ランキングである「Graph500」のBFS(Breadth-First ...
理研と富士通株式会社が共同で開発し、2021年3月より共用を開始したスーパーコンピュータ「富岳」は、世界のスーパーコンピュータの性能ランキングのうち、産業利用などの実際のアプリケーションでよく用いられる共役勾配法の処理速度の国際的なランキング「HPC ...
JST 未来社会創造事業において、東京大学 大学院工学系研究科の香取 秀俊 教授(理化学研究所 光量子工学研究センター チームリーダー/開拓研究本部 主任研究員兼任)は、装置容量250リットルの小型・堅牢な超高精度光格子時計の開発に世界で初めて成功しました。