A neural connection between sensations of hunger and the delayed onset of puberty has been teased out for the first time Figure 1: Giving birth to young places a large burden on mammalian mothers, and ...

Xiaowei Gu and Joshua Johansen at the RIKEN Center for Brain Science in Japan have discovered key circuitry in the rat brain that allows the learning of inferred emotions. The study reveals how the ...

Even quantum systems with long-range interactions between particles can be analyzed using a key principle Figure 1: Ion traps such as the one shown here are one promising technology for developing ...

Figure 1: Five thiophene-fused nanobelts (yellow spheres: sulfur atoms; gray spheres: carbon atoms) in an organic solution. © 2025 RIKEN Molecule Creation Laboratory ...

Our laboratory researches the application of deep learning and quantum computing to predictive problems in the medical field, autonomous scientific discovery, and the acquisition of creativity. Please ...

The Center for Biosystems Dynamics Research (BDR) views the functions of molecules, cells, and organs that support all life stages of organisms as a dynamic system, and aims to elucidate developmental ...

Comprehensive understanding of the interactions among microscopic particles that is essential to understand the building block of the matter. We investigate the hadronic interactions via studying ...

A method for fixing errors that occur in quantum computers is made massively more efficient through deep learning Figure 1: Quantum computers based on light stand to benefit from a technique that uses ...

RIKEN Center for Interdisciplinary Theoretical and Mathematical Sciences (iTHEMS) promotes interdisciplinary collaborations and the creation of new interdisciplinary fields through interactions among ...

「研究テーマは、ロボットによる高齢者との対話です。ロボットが『困りごと』を聞き取り高齢者とコミュニケーションを取ることで、高齢者の認知機能が低下しても暮らしやすくなるようにすることが目的です。これは慶應義塾大学医学部との共同研究になります ※1 」 ...

開拓研究所 侯有機金属化学研究室の侯 召民 主任研究員（環境資源科学研究センター 先進機能触媒研究グループ グループディレクター）が中国化学会名誉会員（Honorary Fellow of the Chinese Chemical ...

東京大学 大学院総合文化研究科の金井 雄樹 特任助教（研究当時：東京大学 大学院理学系研究科 大学院生）と大学院理学系研究科の津留 三良 特任助教と古澤 力 教授らによる研究グループは、細菌のゲノム構造の進化を加速する方法を開発しました。