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    Selection of Index Matching Materials

    by:
    BEYOND FIBER: Blog Articles
    Published: July 3, 2015

    Designing optics for index matching requires knowledge of the refractive index of the adjoining optical materials. By convention, the value of the refractive index at the Sodium D line (589nm, ‘yellow’) is usually quoted for optical materials, even when the wavelength of use is not 589nm. Materials that are index matched at 589nm will generally be close to being index matched at other wavelengths. However, for precise index matching, the refractive index should be measured at the wavelength of use.

    Also, the refractive index for most polymer materials decreases with temperature at a rate in the range of -1×10-4 to -5×10<-4 per °C. This rate of change of refractive index with temperature, denoted the thermo-optic coefficient, or dn/dT, is typically one to two orders of magnitude lower for most glasses and crystals than for polymers. For this reason it is important to specify the temperature at which the material refractive index is measured. By convention, a measurement temperature of 25.0°C is often used.

    Some of the most commonly used optical plastics, glasses and crystals are listed in the table below (Column 1). Under the right hand column reading, “Suitable Index Matching Materials”, ÅngströmLink offers a selection of polymer materials with physical consistencies of Soft Cure, Hard Cure and Fluids (Sub-Columns 3, 4 and 5).

    Soft Cure. Soft cures, also known as gels, are non-migrating and so do not require containment seals to be held in the optical interface. Even so, these materials are extremely pliable, with viscoelastic characteristics which allow large values of strain at the optical interface without risk of delamination. Such strain relief is important, for example, when an assembly is subjected to large temperature swings during which the mating optical materials may shift their positions due to differences in their coefficients of thermal expansion.

    Hard Cure. These are epoxy like polymers which when cured provide index matching as well as dimensional rigidity. They offer excellent adhesion, and some with versions with limited flexibility for strain relief.

    Fluids. These materials are the most convenient to apply, particularly for temporary use in testing or prototyping.  However, as true fluids, they will tend to flow out of the optical interface unless properly contained with seals.

    About the Author
    Randall Elgin Randall Elgin, Business Development, Specialty Products, Technical Sales Randall started her career at Fiber Optic Center (FOC) in February 2010 as a technical specialist in encapsulation materials for optical applications. Since then she has worked with new materials, optical and otherwise, that enable high tech applications in the photonics industry. She regularly attends the photonics exhibitions in the US and Europe. Randall joined FOC from Nusil, where she spent 5 years working on the encapsulation issues for Solid State Lighting. Prior to that she spent 3 years at Lightspan in Wareham, MA, learning about and supporting emerging optical applications. Before Lightspan, she was an electrical engineer for 17 years at Sippican Ocean Systems in Marion, MA. Randall graduated from Boston University in 1984 with a Masters in Electrical Engineering. She and her husband reside outside New Bedford where they built a super energy efficient home, enjoy rural living and take in the New Bedford and Boston classical music scenes.
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