Tokyo Tech News
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Tokyo Tech News
The 23rd Tokyo Tech Challenging Research Awards were presented to eleven researchers each of whom will receive a research grant. The Suematsu Challenging Research Award was given to the three most highly qualified researchers among the Challenging Research Award winners. The award ceremony was held on September 13.
The grant was established with the aim of encouraging young faculty members at the Institute to engage in challenging research. It recognizes creative, up-and-coming researchers who boldly pursue the promotion of the most advanced research in the world, pioneering of new fields of study, innovative development of new research, and important issues that are difficult to solve.
The Suematsu Challenging Research Award is given to the highest qualified researchers among the Challenging Research Award winners. This award was established by the "Suematsu Fund", which was created based on the desire of former President Yasuharu Suematsu to support young researchers. When Professor Yasuharu Suematsu received the Japan Prize in 2014, he donated a portion of the prize money to Tokyo Tech, which established the Suematsu Fund to encourage young researchers. The Fund supports mainly young researchers to encourage their research activities to predict and study the development of unexplored scientific and technological systems in diverse fields and to bring the potential future to real society.
Exceptional-point plasmonic sensor and its application to quantum biology
Theoretical study for realizing measurement-induced phase transitions in ultracold atoms
Integrated Attitude-Orbit Control and Mission Design of Solar Sail and Preparation for Technology Demonstration in Space
Hydrogen detection via correlation among electricity, magnetism, and strain
Design of acoustic responsive liposome based on CO2 dynamics and application for drug release technology
Identification of the solute selectivity mechanism of aquaglyceroporin by comparative and evolutionary physiological analysis
Development of wave propagation model in concrete
Development of clumped isotope analysis techniques to unveil the habitat histories of marine organisms
Comprehensive exploration of potential functional sites of antibody molecules
Material design based on defect ordering
Exploration of Unconventional Thermal Transport Originating from Molecular Dynamics
I am deeply honored to receive the prestigious Suematsu Challenging Research Award. It is particularly moving for me as a researcher in optical science to receive an award named after Professor Suematsu, who made significant contributions to this field globally. I would like to express my heartfelt gratitude to Prof. Masaya Notomi from the School of Science's Department of Physics and to all those who have supported me throughout my research journey.
Nanophotonics is a field that studies and controls light-matter interaction using structures on the scale of hundreds of nanometers, comparable to the wavelength of light. Recently, groundbreaking optical control mechanisms utilizing ideas from condensed matter and quantum physics have been reported. The purpose of my research project is to achieve highly sensitive optical sensing by applying the principles of non-Hermitian physics. This high sensitivity will be leveraged to detect quantum biological signals, which are typically difficult to measure due to their weak nature. Through interdisciplinary research spanning physics, engineering, and biology, the development of a new scientific principles and optical technologies is expected.
I am very honored to receive the prestigious Tokyo Tech Challenging Research Award and the Suematsu Challenging Research Award. I would like to express my sincere gratitude to my co-researchers, students and staffs in our laboratory and research group, and my family who supported my research.
Solar sails are a propellant-free propulsion system that uses solar radiation pressure. It is particularly compatible with lightweight micro spacecraft, and I believe it is one of the important technologies that will be useful for frequent space exploration missions by micro spacecraft. In order to use a solar sail, mission design (orbit/trajectory design) based on an understanding of orbital mechanics and control to follow the designed orbit/trajectory are required. However, since the orbital control of a solar sail is performed via attitude control, a concept of integrated attitude-orbit control is necessary. In this research, we established the integrated attitude-orbit control law using a gimbal mechanism equipped on the sail deployment part, and designed various orbits and trajectories assuming missions near the moon and Lagrangian points. We are also preparing for a technology demonstration mission in space, aiming to apply it to deep space exploration in the future.
I am honored to receive the Tokyo Tech Challenging Research Award and the Suematsu Challenging Research Award. I would like to express my sincere gratitude to all those involved in the research.
I am working on the synthesis of novel materials of inorganic compounds. In this research, I aim to create various crystal structures by arranging the defects that form in crystals by controlling the synthesis method and composition. People may get a negative impression of the word 'defect', and in fact, in many cases, they cause various factors that degrade the performance of materials. However, if defects can be arranged periodically, they can become part of a beautifully aligned crystal structure and provide a means of controlling the properties of a material. Recently, we have shown that the concept of controlling defects, which was well-known for oxides, can be extended to organic-inorganic hybrid compounds, which have recently attracted attention in perovskite solar cells. In this research, I would like to provide pioneer methods that enable the free arrangement of elements and defects in various material groups and develop functional materials.