Faculty Members / Research Areas
Professor
OHSAKI Hiroyuki
Professor
Kashiwa Campus
Superconducting technology for next-generation energy equipment
We are conducting research on electrical energy equipment and systems with excellent characteristics, utilizing advanced materials such as superconductors and high-performance permanent magnets, with the aim of efficient use of electric energy and the realization of advanced electromagnetic applied systems.
OHSAKI Hiroyuki
Professor
Superconducting technology for next-generation energy equipment
We are conducting research on electrical energy equipment and systems with excellent characteristics, utilizing advanced materials such as superconductors and high-performance permanent magnets, with the aim of efficient use of electric energy and the realization of advanced electromagnetic applied systems.
OZEKI Yasuyuki
Professor
Komaba Campus
Unveiling living systems with cutting-edge pulsed lasers
Ozeki Laboratory is pushing the boundaries of biological imaging using advanced optical pulse techniques. Our research focuses on developing new light sources and measurement systems, as well as applying these techniques to observe living systems. Our latest work includes high-speed molecular imaging, highly multiplexed imaging, and using quantum optics to increase sensitivity.
OZEKI Yasuyuki
Professor
Unveiling living systems with cutting-edge pulsed lasers
Ozeki Laboratory is pushing the boundaries of biological imaging using advanced optical pulse techniques. Our research focuses on developing new light sources and measurement systems, as well as applying these techniques to observe living systems. Our latest work includes high-speed molecular imaging, highly multiplexed imaging, and using quantum optics to increase sensitivity.
ONO Ryo
Professor
Hongo Campus
Plasma application technology - medicine, surface engineering to aerospace engineering applications
We are engaged in the development of plasma-based medical, surface, energy, and aerospace engineering applications, as well as fundamental research on plasma spectroscopy measurements and simulations.
ONO Ryo
Professor
Plasma application technology - medicine, surface engineering to aerospace engineering applications
We are engaged in the development of plasma-based medical, surface, energy, and aerospace engineering applications, as well as fundamental research on plasma spectroscopy measurements and simulations.
KUMADA Akiko
Professor
Hongo Campus
Frontier of High voltage / High Current Technology
The electric power system is undergoing a major transformation in response to the need to build a carbon-neutral society. In addition to the upgrade of the conventional AC grid, there is an urgent need to develop fundamental technologies for the DC grid. With the application of social infrastructure construction in mind, we are developing new sensors to understand physical properties and discharge physics, and elucidate discharge phenomena, current interruption phenomena, and electrical conduction phenomena in solids. The laboratory is directed in collaboration with Associate Professor Masahiro Sato and Project Professor Takashi Fujii.
KUMADA Akiko
Professor
Frontier of High voltage / High Current Technology
The electric power system is undergoing a major transformation in response to the need to build a carbon-neutral society. In addition to the upgrade of the conventional AC grid, there is an urgent need to develop fundamental technologies for the DC grid. With the application of social infrastructure construction in mind, we are developing new sensors to understand physical properties and discharge physics, and elucidate discharge phenomena, current interruption phenomena, and electrical conduction phenomena in solids. The laboratory is directed in collaboration with Associate Professor Masahiro Sato and Project Professor Takashi Fujii.
KOSEKI Takafumi
Professor
Hongo Campus
Science for Transport - Transportation of People and Goods Using Electric Power Control
Our research interests include energy and motion control in rail vehicles, magnetic levitation, linear machines, etc., and electric drive application control in transportation systems, such as informationization and automation of transportation system operations.
KOSEKI Takafumi
Professor
Science for Transport - Transportation of People and Goods Using Electric Power Control
Our research interests include energy and motion control in rail vehicles, magnetic levitation, linear machines, etc., and electric drive application control in transportation systems, such as informationization and automation of transportation system operations.
TANEMURA Takuo
Professor
Hongo Campus
Semiconductor integrated photonics
Our research focuses on integrated photonics, which invoves using a compact semiconductor chip of a few millimeters in size to manipulate the state of light. By leveraging the unique properties of "light", such as ultrabroad bandwidth, parallelism, and linearity, and offloading the intelligent digital computations to "electronic" circuits, we aim to create innovative photonic devices that can be applied to a wide range of fields, including next-generation optical communications, imaging, computing, and more.
TANEMURA Takuo
Professor
Semiconductor integrated photonics
Our research focuses on integrated photonics, which invoves using a compact semiconductor chip of a few millimeters in size to manipulate the state of light. By leveraging the unique properties of "light", such as ultrabroad bandwidth, parallelism, and linearity, and offloading the intelligent digital computations to "electronic" circuits, we aim to create innovative photonic devices that can be applied to a wide range of fields, including next-generation optical communications, imaging, computing, and more.
HASHIMOTO Tatsuaki
Professor
Sagamihara Campus
Control spacecraft freely
We will apply control and information processing technologies to realize various space missions. Let's make the impossible possible with your novel ideas.
HASHIMOTO Tatsuaki
Professor
Control spacecraft freely
We will apply control and information processing technologies to realize various space missions. Let's make the impossible possible with your novel ideas.
HIROSE Akira
Professor
Hongo Campus
Neural Networks and Wireless Networks: See/feel/speak with radio-wave sensitive eyes and artificial intelligence (AI)
*Investigation of information processing principles in the brain from an electronic information engineering perspective, *Research on new information and signal processing technology by combining symbol processing and pattern processing, *Development of flexible electromagnetic/light measurement techniques, imaging and communication methods, and *Realization of useful systems and devices.
HIROSE Akira
Professor
Neural Networks and Wireless Networks: See/feel/speak with radio-wave sensitive eyes and artificial intelligence (AI)
*Investigation of information processing principles in the brain from an electronic information engineering perspective, *Research on new information and signal processing technology by combining symbol processing and pattern processing, *Development of flexible electromagnetic/light measurement techniques, imaging and communication methods, and *Realization of useful systems and devices.
FUKUDA Seisuke
Professor
Sagamihara Campus
Spacecraft/satellite systems and sensor signal processing
We are conducting a wide range of research, from very close to actual projects to future elemental technologies, regarding technology related to satellite and spacecraft systems with background in electronic engineering, and signal processing technology for radar and image sensing.
FUKUDA Seisuke
Professor
Spacecraft/satellite systems and sensor signal processing
We are conducting a wide range of research, from very close to actual projects to future elemental technologies, regarding technology related to satellite and spacecraft systems with background in electronic engineering, and signal processing technology for radar and image sensing.
FUJIMOTO Hiroshi
Professor
Kashiwa Campus
The world changes with the power of control! - Electric vehicles, wireless power transfer, applied control, electric airplane -
Research fields include control theory and its application, motion control, nanoscale servo, robotics, electric vehicle control, wireless power transfer, power electronics, control of eVTOL, drone, electric airplane.
FUJIMOTO Hiroshi
Professor
The world changes with the power of control! - Electric vehicles, wireless power transfer, applied control, electric airplane -
Research fields include control theory and its application, motion control, nanoscale servo, robotics, electric vehicle control, wireless power transfer, power electronics, control of eVTOL, drone, electric airplane.
YAMASHITA Shinji
Professor
Hongo Campus
Cutting Edge Laser Technology and Photonic Devices for Communications, Precision Measurements, Bio-Medical and Industrial Applications
Nanocarbons, such as Carbon nanotubes (CNT) and graphene, have very useful nonlinear photonic properties. We are pursuing researches on novel devices and short-pulse lasers using these nanocarbon materials. Especially, we have realized original and ultra-high performance fiber lasers, such as short-cavity short-pulse fiber lasers having high pulse repetition rate > 10GHz, and fast and wide wavelength swept fiber lasers that can sweep its wavelength in wide sweep range (>100nm) at very fast sweep speed (repetition rate > a few 100kHz). We are trying to apply these fiber lasers to communications, precision measurements, bio-medical and industrial applications.
YAMASHITA Shinji
Professor
Cutting Edge Laser Technology and Photonic Devices for Communications, Precision Measurements, Bio-Medical and Industrial Applications
Nanocarbons, such as Carbon nanotubes (CNT) and graphene, have very useful nonlinear photonic properties. We are pursuing researches on novel devices and short-pulse lasers using these nanocarbon materials. Especially, we have realized original and ultra-high performance fiber lasers, such as short-cavity short-pulse fiber lasers having high pulse repetition rate > 10GHz, and fast and wide wavelength swept fiber lasers that can sweep its wavelength in wide sweep range (>100nm) at very fast sweep speed (repetition rate > a few 100kHz). We are trying to apply these fiber lasers to communications, precision measurements, bio-medical and industrial applications.
Project Professor
FUJII Takashi
Project Professor
Hongo Campus
革新的レーザ計測技術の開発と高電圧研究への適用
直流グリッドが共存した次世代電力システムの実現に向け、光を用いた電界計測やレーザプラズマを用いた設備診断技術など、レーザの特長を生かした様々な応用研究や、レーザ特有の非線形現象の解明を行っています。
FUJII Takashi
Project Professor
革新的レーザ計測技術の開発と高電圧研究への適用
直流グリッドが共存した次世代電力システムの実現に向け、光を用いた電界計測やレーザプラズマを用いた設備診断技術など、レーザの特長を生かした様々な応用研究や、レーザ特有の非線形現象の解明を行っています。
Associate Professor
KOBAYASHI Daisuke
Associate Professor
Sagamihara Campus
Startled Computers: Space makes semiconductors surprised
In Sci-Fi movies, androids are often depicted as having cold and emotionless character. We may have such impression because most of computers rely on digital processing in which everything is flatly divided into "1" or "0", but—would you believe it?—they are easily surprised and often get upset. It is caused by a strike of tiny invisible particles, fragments of exploding stars a.k.a cosmic rays, but the shock is significant. The shock makes a computer chip surprised and lose its memory, control, and even its fundamental ability to boot up. So, what will you do next?
KOBAYASHI Daisuke
Associate Professor
Startled Computers: Space makes semiconductors surprised
In Sci-Fi movies, androids are often depicted as having cold and emotionless character. We may have such impression because most of computers rely on digital processing in which everything is flatly divided into "1" or "0", but—would you believe it?—they are easily surprised and often get upset. It is caused by a strike of tiny invisible particles, fragments of exploding stars a.k.a cosmic rays, but the shock is significant. The shock makes a computer chip surprised and lose its memory, control, and even its fundamental ability to boot up. So, what will you do next?
NATSUAKI Ryo
Associate Professor
Hongo Campus
Measure the world with active sensing
"Observation using microwaves" is our research topic. We can observe the target from distant in any time and weather condition. We are studying the dynamic deformation of the Earth using satellite borne radar system.
NATSUAKI Ryo
Associate Professor
Measure the world with active sensing
"Observation using microwaves" is our research topic. We can observe the target from distant in any time and weather condition. We are studying the dynamic deformation of the Earth using satellite borne radar system.
Project Associate Professor
Takahiro Umemoto
Project Associate Professor
Hongo Campus
High Voltage Insulation Technology Supporting the Next Generation of Power Energy
We are advancing research on "High Voltage Insulation" in the power energy sector, focusing on developing low-environmental-impact insulation materials, expanding the application of power electronic devices, advancing diagnostic technologies, and contributing to the realization of a sustainable society through their implementation.
Takahiro Umemoto
Project Associate Professor
High Voltage Insulation Technology Supporting the Next Generation of Power Energy
We are advancing research on "High Voltage Insulation" in the power energy sector, focusing on developing low-environmental-impact insulation materials, expanding the application of power electronic devices, advancing diagnostic technologies, and contributing to the realization of a sustainable society through their implementation.