有限会社ハイメック

有限会社ハイメック 光学デバイス設計製造

In the flower bed by our company gate grows a rose called Hagoromo.Trimmed back to a modest shape—almost too severely, i...
11/05/2026

In the flower bed by our company gate grows a rose called Hagoromo.
Trimmed back to a modest shape—almost too severely, it seems—it still gathers its strength and begins to bloom with quiet grace once more this year.
With careful tending, it will offer its blossoms until October,
a gentle solace for the eyes of those who come to visit us.

This diagram illustrates the core structure of a vascular imaging and projection device, conceived independently at Hi‑M...
08/05/2026

This diagram illustrates the core structure of a vascular imaging and projection device, conceived independently at Hi‑MEC.
Although similar technologies already exist and the patent applicability is uncertain, the key feature of this concept is the integration of imaging and projection within a single optical system.
A key advantage of this structure is that it enables handheld imaging.
Because the imaging distance and projection distance are inherently identical, the system maintains focus automatically without any mechanical adjustment.

The six‑panel projection architecture forms the optical foundation for stereoscopic imaging by generating independent RG...
06/05/2026

The six‑panel projection architecture forms the optical foundation for stereoscopic imaging by generating independent RGB images for the right and left eyes.
Each of the six LCoS panels modulates one color channel for one eye—Right‑R, Right‑G, Right‑B, Left‑R, Left‑G, and Left‑B—allowing both color sets to be processed separately with full resolution.

These six channels are then recombined through a non‑polarizing dichroic cross‑prism, which merges all components onto a single coaxial optical axis while maintaining complete separation between the right‑eye and left‑eye images.
Because the system relies on wavelength‑selective recombination rather than polarization‑dependent routing, it achieves high efficiency, low crosstalk, and stable binocular disparity.

In this configuration, the projector delivers two fully independent RGB images to the viewer, providing the precise left‑right disparity required for accurate stereoscopic depth perception.

Illumination for semiconductor inspection is designed to excite the wafer surface at a specific wavelength and to captur...
05/05/2026

Illumination for semiconductor inspection is designed to excite the wafer surface at a specific wavelength and to capture the reflected components corresponding to that excitation band.
By detecting only the wavelength‑selective reflected light, the system can reveal defects, particles, and film‑thickness variations with high sensitivity.

Different wavelength bands can be combined into a single optical path using dichroic coatings.
Since LED wavelengths can be selected freely, multiple excitation bands can be delivered on one coaxial beam.
For example, photoresist exposure requires both 365 nm and 405 nm, and these LEDs can be merged into a single optical path for simultaneous irradiation.

RetinaWave CombinerI can produce this device when formally commissioned. The technology is complete and ready for fabric...
05/05/2026

RetinaWave Combiner
I can produce this device when formally commissioned. The technology is complete and ready for fabrication.

05/05/2026

RetinaWave Combiner

I can manufacture this optical device upon request. The technology and production process are already established, and I am able to deliver custom designs based on specific requirements.

04/05/2026

Please refer to my Facebook posts for details of my past work.
I have experience in multiple advanced fields, including optics, imaging, precision fabrication, and high‑speed communication technologies.

More than a decade ago, I collaborated on a government‑driven project with the advanced research division of a major ele...
04/05/2026

More than a decade ago, I collaborated on a government‑driven project with the advanced research division of a major electronics manufacturer.
At Hi‑MEC, we manufactured and assembled the world’s first 1‑to‑100 Gb/s scalable high‑speed communication interface.
The prototype operated flawlessly, and the research presentation was made by the partner company.
Although mass production was not realized due to reproducibility and cost challenges, the technical breakthrough itself was completed here.
Further development was suspended after the 3.11 earthquake, and the project has remained dormant since then.

Hi-MEC Co., Ltd. contributes to Japan’s most advanced holographic and three-dimensional imaging research conducted at th...
04/05/2026

Hi-MEC Co., Ltd. contributes to Japan’s most advanced holographic and three-dimensional imaging research conducted at the National Institute of Information and Communications Technology (NICT), an independent administrative agency under the Ministry of Internal Affairs and Communications.
Our expertise lies in the precision fabrication of polarization prisms and dichroic prisms, which are essential optical components for next‑generation holographic and 3D imaging systems.
Hi-MEC’s optical engineering capabilities play a key role in supporting NICT’s cutting‑edge optical architectures for holographic displays.

Parallel‑light exposure uses collimated illumination to stabilize the line width, edge sharpness, and energy distributio...
04/05/2026

Parallel‑light exposure uses collimated illumination to stabilize the line width, edge sharpness, and energy distribution during scanning. By suppressing beam divergence, it eliminates the blurred, low‑energy edges that occur in direct exposure. Lens arrays, homogenizing rods, and light tunnels are used to generate a highly uniform collimated beam suitable for precise patterning.

The taper is required to effectively control the diffusing light and to extract a greater portion of parallel rays. By g...
04/05/2026

The taper is required to effectively control the diffusing light and to extract a greater portion of parallel rays. By gradually narrowing the geometry, the tapered section increases the number of internal reflections and guides more usable collimated light toward the output.

住所

長野県 北安曇郡 松川村 5721/276
Ikeda-Machi Kitaazumi-gun, Nagano
399-8501

電話番号

+81261628814

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