オンカジ

Japanese Site Site Map HOME Faculty & Research Engineering Tadayuki Imai Tadayuki ImaiProfessor, Ph.D. in Engineering KUAS Engineering is a small, compact faculty. Though we are centered around mechatronics, we offer a wide variety of courses such as programming, materials, mechanics, electromagnetism, electric motors, robotics, physical chemistry and various other subjects. There are countless combinations of courses to choose from. I myself specialize in optics. Join us at KUAS Engineering and build a pathway to your dreams! E-Mail imai.tadayuki Website https://researchmap.jp/TadayukiImai Areas of Research Optoelectronic Devices, Optical Crystals, Dielectrics, Holography Profile Research Dr. Tadayuki Imai obtained his Ph.D. in Engineering from Osaka University before working as a researcher for Nippon Telegraph and Telephone Corporation (NTT) for over 26 years. At NTT, Dr. Imai was in charge of the development of multi-layered waveguide holographic memory as well as other holographic devices, and in 2005 he was successful in the commercialization of the KTN crystal (KTa1-xNbxO3), which possesses the maximum electro-optic (EO) effect among existing oxide materials. At KUAS, he is interested in researching optical sensing systems using the crystal, as well as attempting to discover a material with an even higher refractive index modulation. When he is not in his lab, Dr. Imai enjoys history and archeology. Vision Control by Refraction Light plays a crucial role in allowing most living creatures to observe their surroundings. Our eyes detect the light reflected from objects, allowing us to perceive what is around us. Light allows us to navigate through, detect objects within, and learn from our environment. Light is a type of electromagnetic wave, but the wavelength-range of visible light is what allows it to be easily perceived and detected. Whether by human eye or other detection equipment, such as semiconductor-based technology, finer details can be observed under waves with a minute wavelength of between 400 and 800 nanometers (1 nm = 10-9m) compared to long-wavelength waves. The appearance of an object is largely determined by its refractive index. When light hits an object, part of it is reflected while the rest is refracted. This phenomenon is governed by the refractive index. A glass bottle is as nearly as transparent as air, but still visible because it possesses a higher refractive index. At KUAS, Dr. Imai is working on the development of materials with variable, controllable refractive indexes. Materials with variable refractive indexes have already been observed, but if a substance existed whose refractive index could be rapidly and easily changed by a large degree, it may lead to world-changing discoveries. This would eventually allow objects to change their appearance like a chameleon, or make objects appear three-dimensional without the use of goggles. Furthermore, measurement methods that employ light will become faster and more reliable. Recently, Dr. Imai has investigated oxide crystals whose refractive index changes when a voltage is applied. These crystals respond much faster than the liquid crystals used for displays and operate at a high frequency of around 1 GHz (109 Hz). However, their actual refractive index shift is too small to be detected by the human eye (around 10-4). This has led to oxide crystals being used in limited applications, such as optical modulators in communication devices.However, in one type of crystal called KTN (KTa1-xNbxO3), a refractive index that easily exceeds 10-3 has been observed. An index shift of this magnitude can visibly deflect laser light to an angle exceeding 10 degrees, and this shift has been confirmed at frequencies of up to 1 MHz (106 Hz). These crystals’ high-speed, wide-angle deflection capabilities have already led to the development and implementation of ultra-high-accuracy, high-speed thickness gauges and other miniaturized surveying systems. Dr. Imai will continue to pursue ways to improve upon these materials, thus realizing substantially larger index shifts and allowing for the creation of innovative optical devices and systems. About KUAS About KUAS KUAS at a Glance Vision & Philosophy Facts & Figures News & Events News & Events News & Topics Information Sessions Academics Academics Undergraduate Engineering Bioenvironmental Sciences Global Business & Economics Graduate Engineering Faculty & Research Faculty & Research Engineering Bioenvironmental Sciences Global Business & Economics Student Life Student Life Campuses Dormitories Life at KUAS Life in Kyoto Admission & Aid Admission & Aid How to Apply (Undergraduate) How to Apply (Graduate) Tuition & Fees Scholarships Downloads Downloads Prospectus & Brochures  Application Guidelines & Forms Gallery Gallery Movies Photos Location Location Uzumasa Campus Kameoka Campus Access from Airports Contact & FAQ Contact & FAQ FAQ Inquiry Global Representatives Site Policy Sitemap UNDERGRADUATE Final EntryFeb 5 to Mar 8 --> GRADUATE Regular EntryDec 1 to Jan 26 --> Admitted Students Current Students Site Policy © KYOTO UNIVERSITY of ADVANCED SCIENCE All rights reserved. TOP