We will visualize millimeter waves and terahertz waves!
We offer a measurement service for millimeter-wave radio that acquires the spatial distribution of the electric field's amplitude and phase of millimeter-wave and terahertz waves. Through actual measurements, you can visualize electromagnetic waves (1GHz-600GHz) and understand complex electric field situations. You can observe the behavior of radio waves such as transmission, reflection, diffraction, and scattering. You don't need expensive measuring instruments or specialized knowledge, so please feel free to contact us. 【Recommended for those with the following concerns!】 ■ There are materials manufactured so far that seem usable in high-frequency bands, but I don't know how to appeal to the world... ■ If I could present actual measured data to customers, it would be possible to make an appeal, but the radio waves are invisible... ■ I don't understand the behavior of high frequencies. It would be great if it could be visualized... *For more details, please download the PDF or contact us.
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basic information
【Service Flow】 1. Detailed discussion 2. Submission of estimate 3. Measurement acceptance 4. Receipt of measurement subject 5. Actual measurement work 6. Reporting of measurement results *For more details, please download the PDF or contact us.
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Applications/Examples of results
【Purpose】 ■ Materials for appealing to customers and evaluating design and manufacturing ■ Precise measurement of the radio wave transmission state of resin parts ■ Inspection of high-frequency components such as antennas and lenses ■ Measurement of antenna beams (patterns), etc. *For more details, please download the PDF or contact us.
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Company information
Our company is a venture certified by Gifu University, established in July 2019 as a university-originated venture (the first of its kind). We are working on the social implementation of a technology developed by the Hisatake Laboratory at Gifu University, which measures high-frequency electromagnetic waves (from microwaves to terahertz waves). In particular, we focus on a technique that visualizes electric fields by installing electro-optic devices (elements that change their refractive index when subjected to an electric field) at the tip of a fiber optic and manipulating the fiber probe.