世界で活躍し社会に貢献する人材を育成する教育カリキュラム。 原子核工学コースでは、専門知識や技術を学ぶために、関連する科目を科目群としてまとめて、達成度や習熟度に併せて体系 ...

A collaborating team of NTT Corporation (NTT) and Tokyo Institute of Technology (Prof. Masaya Notomi in Physics Department) has succeeded in achieving photonic topological phase transition by material ...

第6世代移動通信システムを支える低誘電材料の開発加速に期待 5Gから6Gへの移動通信システムの進展に伴い、ミリ波[用語14] 技術の利用が急速に進んでいる。この技術は100 GHzを超える高周波 ...

The Global Scientific Information and Computing Center (GSIC) at Tokyo Tech started operation of its next-generation supercomputer, TSUBAME 4.0, on April 1. Since TSUBAME1.0 started operation in April ...

A new D-band CMOS transceiver chipset with 56 GHz signal-chain bandwidth achieves the highest transmission speed of 640 Gbps for a wireless device realized with integrated circuits, as reported by ...

Carbon capture and utilization technologies for the conversion of carbon dioxide into carboxylic acids have garnered attention recently, with researchers from Tokyo Tech recently demonstrating a ...

A highly sensitive diamond quantum magnetometer utilizing nitrogen-vacancy centers can achieve millimeter-scale resolution magnetoencephalography (MEG), as reported by scientists from Tokyo Tech. The ...

Researchers uncover how the halogen bond can be exploited to direct sequential dynamics in the multi-functional crystals, offering crucial insights for developing ultrafast-response times for ...

東京工業大学（以下、東工大）工学院 情報通信系の中谷桃子准教授は、日本電信電話株式会社（以下「NTT」）と共同で、ハイブリッドワーク環境下における従業員のウェルビーイング向上を ...

Tokyo Medical and Dental University and Tokyo Institute of Technology will merge on October 1, 2024, to form Institute of Science Tokyo (Science Tokyo). The merging universities have created a special ...

有機-無機ハイブリッドペロブスカイト化合物への分子イオン添加で、欠陥が整列した新たな一連の派生構造の生成を発見。 分子イオンの添加量によって欠陥量を制御し、光学特性を制御可能。

Two innovative design techniques lead to substantial improvements in performance in fractional-N phase locked loops (PLLs), report scientists from Tokyo Tech. The proposed methods are aimed to ...