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Control of light


Optical Lenses (for Endoscopes, Broadcasting, Surveillance, Satellites)

Provides optimal images under any circumstances, from inside of human body to the universe

We are able to provide a broad range of optics with high quality and performance. This is realized by combination of superb lens manufacturing technology (aspherical processing, surface grinding/polishing and coating technology), imaging device design technology and evaluation technology.

Evaluation technology enables high performance
Shape  (difference in height: 20 nm)

Our belief is “Lenses are never manufactured without measurement”. Utilizing our evaluation technology, we have developed extremely accurate measurement instrument in order to manufacture precise lenses which are essential for high quality and performance optics.

SX800 (Long-range Surveillance Camera with a Built-in Lens)

Long-range surveillance camera enabling clear and instant image capture of distant subjects

This long-range surveillance camera with a built-in lens enables 40x optical zoom up to the world’s longest 800 mm focal length*1. The unit is well suited for surveillance functions at national borders, airports, and ports, with advanced image stabilization performance, high-speed & high-accuracy autofocusing as fast as 0.3 seconds and an outstanding capability to reduce heat haze and fog.

  • *1 Among long-range surveillance cameras with a built-in lens, as of July 23, 2019 according to Fujifilm.
Advanced image stabilization performance
High-precision Forming Technology Optics

Even under harsh environments the images are accurately stabilized without time lag, utilizing accumulated technologies from broadcasting and digital camera lens.

Light Analysing Powder

Base makeup series that achieves beautiful skin by controlling reflection, transmission and absorption of light

The characteristics of the reflection, transmission, and absorption of light in "beautiful skin" are analyzed for each wavelength using our unique skin tomographic image analysis system. Capitalizing on the optical properties derived from the analysis, a unique powder provides optical control through its unique combination of two powders: a red powder that diffuses the light inside the skin and a white powder that reflects light evenly on the surface of the skin.

Stabilization of red pigment
Functional Molecules Functional  Polymer Nano Dispersion Technology Materials Chemistry Optics Unstable red pigment Immobilization to powder To become stable powder

This powder features successful stabilization of red pigment, which is difficult with conventional technology, and has three optical properties that makes the skin look beautiful.

WV (Wide View) Film

Left: With WV film Right: Conventional screen (without WV film)

With the LCD screen viewing angle expanded by 1.8 times, this film gives a beautiful screen view no matter what angle you look from

Our original discotic liquid crystal coating is applied to a TAC (cellulose triacetate) base to afford a high degree of control over molecular alignment. When simply used as a polarizing protective film, viewing angle can be expanded, opening up application on all types of LCD screens.

Optical compensation by hybrid orientation
Functional Molecules Functional Polymer High-precision Coating Technology Film Formation Technology Materials Chemistry Optics Imaging Idealized and extremely simplified model

The alignment of the polymerized discotic materials changes to the depth direction in a state of randomness, widening the viewing angle. This structure is called hybrid alignment.


Image sensor photosensitive coloring material which can accurately cut the light of targeted wavelengths

This photosensitive coloring material is used for producing the micro color filters that are the key components of the CCD and CMOS sensors in digital cameras and mobile phones. This combines micro photosensitive polymer technology developed for photoresists with technology for the even dispersion of color pigments at an extreme fineness.

Color resist
Functional Molecules Functional Polymer Redox Control Technology Film Formation Technology Materials Chemistry Optics Imaging

Combining photosensitive resin and coloring agents realized the superior performance of a micro color filter offering high resolution, low noise, and faithful color reproduction.

Optical Visual Inspection System

Dramatically improves precision of visual inspection by highlighting defects using Fujifilm’s proprietary imaging technology and processing large volumes of inspection images at a high speed

Fujifilm has accumulated a wealth of expertise in generating images that highlight defects, capitalizing on its experience of developing visual inspection systems for manufacturing its own products. Inspection images are shot and processed under optimal conditions for each product.

Image processing technology that detects defects
System Design Imaging Technology Imaging

The system captures inspection images from every direction at 200 frames per second to detect the smallest defects and avoid mistakenly identifying defects in good products. Large volumes of images undergo high-speed processing using Fujifilm’s proprietary algorithm. The system is flexibly customizable for specific needs.


Conductive film with low resistance that can change its shape 3D

Fine silver wire patterns can be formed on transparent PET film by applying functional material research and silver halide photography technologies (including high-precision thin-layer coating and image design technologies).This conductive film exhibits high transparency and flexibility while maintaining low resistance.

Metal mesh technology
Grain Formation Technology Functional Molecules Functional Polymer Redox Control Technology Film Formation Technology High-precision Coating Technology Film Formation  Technology Materials Chemistry Imaging

EXCLEAR offers a wide range of tunable resistance using Fujifilm’s precise digital exposure technology, which enables highly sensitive silver halide conductors to be printed with specific line widths on one or both sides of the carrier film.