「Tokyo Tech Bulletin（トーキョー テック ブリテン）」は、東京工業大学の研究成果やニュース記事、学生の活動などを紹介し国内外へ広く配信する英文メールニュースです。
この度、Tokyo Tech Bulletin No. 51が発行されました。
Over the past few years, a new research field has arisen at Tokyo Tech called "quantum science and technology." But what exactly is quantum science and technology and why are we talking about it? We interviewed the Dean of the School of Engineering, Nobuyuki Iwatsuki, who plays a central role in promoting the advancement of this exciting field.
Student dormitory residents and the Institute's Student Support Division provide an inside look at dorm life and offer advice for prospective residents, including what to expect and how to apply.
I want to do things differently from other people and live creatively -- Alexis André Fifteen years ago, a young man from France left his hometown and came to Tokyo Tech. At our school, he overcame difficulties and obtained his doctoral degree through the Tokyo Tech graduate program. Today, he has started to provide the world with a series of results from unique research that is a blend of art and computer science.
EON postdoctoral fellow Jennifer Hoyal Cuthill's work looking at fossil records of the Ediacaran to shed light on the evolution of early life in the early Earth's environment.
Postdoctoral Researcher Tetsuya Kotani, Associate Professor Hitoshi Nakatogawa, Honorary Professor Yoshinori Ohsumi and colleagues at Tokyo Tech have analyzed the Atg protein1 Atg2, whose function had been completely unknown, and have discovered that Atg2 tethers the pre-autophagosomal membrane to the endoplasmic reticulum during autophagosome formation.
Scientists at Tokyo Tech, RIKEN and Tohoku University have developed a silicone polymer chain that can self-assemble into a 3D periodic structure. They achieved this by using their recently reported self-assembling triptycene molecules to modify the ends of the polymer chains.
Scientists at Tokyo Tech have discovered a gene that appears to play a vital role in pheromone sensing. The gene is conserved across fish and mammals and over 400 million years of vertebrate evolution, indicating that the pheromone sensing system is much more ancient than previously believed. This discovery opens new avenues of research into the origin, evolution, and function of pheromone signaling.
Researchers in Japan have found a way to create innovative materials by blending metals with precision control. Their approach, based on a concept called atom hybridization, opens up an unexplored area of chemistry that could lead to the development of advanced functional materials.
Scientists at Tokyo Tech have designed a novel photoluminescent material that is cheap to fabricate, does not use toxic starting materials, and is very stable, enhancing our understanding of the quantic nature of photoluminescence.