Nano-Device Research Division
Nanodevice Engineering

Silicon-Carbide (SiC) harsh-environment electronics for space exploration, decommissioning of nuclear power stations and medical, SiC power semiconductor devices and silicon thin-film devices.
email: skuroki@
Nanoprocess Engineering

Research on devise structures, advanced process technology, and evaluation system for advanced LSI, and research on new devise structures, process technology of wide bandgap semiconductor (GaN) for power devices and high-speed communication
email: teramo10@

Researches of ultra small-size or new functional devices (such as quantum device and single-electron memory) and the development of atomic- or nano-scale process and large-scale integration technologies to make LSI more large and fast.
email: anakajima@
Research on low-power consumption devices and thermoelectric devices using group IV semiconductors as well as evaluation of their physical properties and processes for realization of next-generation LSI and the Internet of Things (IoT) society.
email: yokogawa@
Nano-photon and quantum Engineering

Research on novel quantum physics in photon, spin and electrons as well as frontier device physics enabling low latency and low power consumption to realize next generation LSI enabling ultra-efficient information processing.
email: hdkgotoh@
Interdisciplinary Research Division
Intelligent Integrated Circuits Engineering

Research on wireless communication networks, wireless signal processing, wireless communication architecture & intelligent integrated circuits, and radio-wave propagation for wireless-environment cognitive IoT integrated system considering disaster resistance and medical applications.
email:kameda3@

Architecture and circuit technologies for LSIs, which realize real-time recognition systems for flexible and intelligent information-processing based on reconfigurable logic-inmemory architecture approaches, and the systems development of medical / agricultural engineering applications.
email: koide@

Research on wireless communication networks, wireless signal processing,
wireless communication architecture, and radio-wave propagation considering
disaster resistance and space applications.
email: masataka-miyake@
Wireless sensing and biomedical imaging by using microwave and millimeter wave towards medical application, development of integrated sensing and communication (ISAC) system and the application for network management, fusion of optical and radio wave for biomedical measurement.
email: hanghsong@
Biomagnetics

Research on optical and magnetic properties of biogenic crystals and living cells in tissue engineering. Electromagnetic manipulation of biological materials in bio-MEMS for biomedical science and biotechnology.
email: miwamasa@
* For the email address, please add "hiroshima-u.ac.jp"