About us

Since our inception in 1992, KUPO Optics has been at the forefront of the optical coatings and filters industry. With a steadfast commitment to quality, we've carved out a distinguished reputation, providing top-tier optical solutions. Our focus on maintaining high standards has positioned us as a leader in the professional optical filter market, catering to a diverse range of industries with unmatched expertise and precision.

State-of-the-art Facilities

Our dedication to excellence is reflected in our investment in cutting-edge production technology. Our arsenal includes advanced planetary coating machines, precise linear and laser cutting tools, and high-resolution spectrometers. This sophisticated equipment enables us to craft filters and coatings with exceptional accuracy and consistency, ensuring each product meets our stringent quality benchmarks.


Wide Range Applications

KUPO Optics' products find their application across a vast array of fields. We cater to sectors as diverse as medical and fluorescence imaging, machine vision, astronomy, defense systems, and entertainment. Our optical filters and coatings are integral in enhancing the performance and functionality of various devices and systems in these industries.


Flexibility and Customization

We understand the urgency and unique requirements of our clients. Our extensive inventory is poised to fulfill rush orders, demonstrating our commitment to responsive service. Furthermore, our seasoned R&D team is adept at developing bespoke filters tailored to meet the most exacting specifications, providing solutions that align perfectly with client needs.


KUPO Dichroic Filter

At KUPO Optics, the precision and consistency of our optical filters are a testament to our advanced coating chambers equipped with planetary revolution and Ion Assistant Deposition (IAD) technology. Adhering to MIL-M-13508C standards, our rigorous manufacturing process ensures each filter withstands environmental challenges, including abrasion, humidity, and flaking. Our commitment to quality is further solidified by our adherence to ISO 9001 standards, guaranteeing uniformity in all our products.
Our relentless pursuit of innovation is grounded in continuous research and development. We are dedicated to exploring new possibilities in optical solutions, striving to exceed expectations in both product quality and customer service. At KUPO Optics, your satisfaction is our priority. We welcome your inquiries and are committed to providing prompt and comprehensive responses to all your needs.


Art Restoration and Analysis

Illuminating Art: The Role of Optical Filters in Art Restoration and Analysis
Art Restoration and Analysis is a meticulous and fascinating field that blends science and history to conserve, preserve, and understand cultural heritage artifacts. Professionals in these disciplines work to revive historical artworks to their original splendor or to maintain their condition, as well as to analyze the materials and techniques used in their creation. In the quest for achieving these goals, optical filters emerge as powerful tools, enabling conservators and analysts to see beyond the visible and delve into the secrets locked within the layers of paint and varnish.
Optical filters selectively transmit or block wavelengths of light, serving as windows that can reveal hidden details or can filter out damaging radiation. In Art Restoration and Analysis, these filters assist in non-invasive examinations, allowing for detailed insight into the artwork without direct contact or the use of chemicals that could potentially harm these invaluable works. This is particularly important when studying pieces that are delicate, aged, or otherwise susceptible to damage.
Optical Filter Types and Applications in Art Restoration and Analysis
Dichroic Filters
A dichroic filter is a color filter that selectively passes light of a small range of colors while reflecting other colors. Its precise wavelength selectivity makes it ideal in art restoration for isolating specific bandwidths of light to enhance contrast or to detect certain pigments and materials. For instance, conservators may use a dichroic filter to focus on the specific wavelengths that are absorbed or reflected by certain pigments, helping to identify the materials used by artists or detecting later additions or overpainting that might not be visible under normal lighting conditions.
IR (Infrared) Filters
Infrared filters are invaluable in the sector of art analysis. They are capable of blocking visible light while passing infrared radiation, which penetrates deeper into the painted layers than visible light. Infrared Reflectography (IRR) is a technique that utilizes IR filters to reveal underdrawings, pentimenti (alterations made by the artist), and underpainting techniques. As infrared rays are reflected differently by various materials, conservators can also use IRR to distinguish between original artwork and areas that might have been altered or restored in the past.
UV (Ultraviolet) Filters
Ultraviolet filters are used to block visible and infrared light while transmitting UV rays. Fluorescence induced by ultraviolet radiation can be captured and analyzed to ascertain the composition of varnishes, binders, or to detect restorations. Since many ancient pigments and binding media fluoresce under UV light, UV filters enable art analysts to detect changes and condition issues, such as areas of overpainting or regions where the varnish may have deteriorated or been replaced.
Bandpass Filters
Bandpass filters transmit light only within a certain wavelength range, and are used to isolate specific parts of the spectrum for analysis. By employing bandpass filters during multispectral imaging, art conservators can focus on discrete spectral bands to reveal information about the pigments, as particular pigments have unique spectral signatures when excited by certain wavelengths. This multispectral analysis can help in authenticating artworks and detecting restorations.
Longpass and Shortpass Filters
Longpass filters transmit wavelengths longer than the filter's cutoff wavelength, while shortpass filters do the opposite, transmitting wavelengths shorter than the cutoff. These filters can differentiate materials based on their spectral response. For example, longpass filters can be used to capture the longer wavelengths that might show deeper stratigraphy of paint layers for studying overpaint or to see through certain varnish layers that may be opaque in the visible spectrum but translucent in longer wavelengths.
Polarizing Filters
Polarizing filters are crucial in reducing glare and reflections from the surface of paintings. By aligning the filter's polarization direction with the reflection angle, unwanted shiny reflections from varnishes or glossy pigments can be minimized. This allows for clearer photographs and imaging, providing a better view of the true colors and details of the painting. Polarizing filters are especially useful when documenting the conditions of paintings for conservation reports, as the reduced glare ensures accurate color reproduction in the photographs.
In conclusion, optical filters are instrumental in the domain of Art Restoration and Analysis. By selectively manipulating wavelengths of light, these filters help conservators and analysts to examine and preserve historic masterpieces in a non-invasive manner, which not only respects the integrity of the artwork but also aids in unveiling the once-hidden narratives of our cultural legacy. As technology progresses, the potential of these filters in rejuvenating and deciphering art continues to expand, ensuring that every stroke, shade, and secret is meticulously cared for and understood.