Microfadeometry

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Microfadeometry is a technique that uses tiny spots of intense light to probe and measure color changes in objects of art that are particularly sensitive to light exposure.<ref name="six">Microfade Testing Service, Canadian Conservation Institute. (2014, June 2).</ref> This process is completed using a recently designed instrument known as a microfading tester. The data from the test is represented by reflectance spectra.

History

Light-fastness testing dates back to as early as 1733. In the late 19th century with early art conservation studies, Russell and Abney published Action of Light on Watercolors in 1888 sparking a concern with light and the aging of cultural materials.<ref name="three">Druzik, J. Oriel Microfading Tester (MFT): a Brief Description. Research and Technical Studies. 2010, 2, 1-14.</ref> Microfading, as a technique, was first identified in Paul Whitmore’s lab book entry on September 21, 1994. His work on the topic was later published in 1999.<ref name="four">Ford, B. Non-Destructive Microfade Testing at the National Museum of Australia. The Australian Institute for the Conservation of Cultural Material Bulletin. 2011, 32, 54-64.</ref>

Application

Before the creation of this technique, recording light-stability information directly from the objects was nearly impossible. Through the use of microfading technology, it is now possible to obtain both information about the chemical characterization of the dyes and the associated kinetics of color change.<ref name="three"/> Benchtop microfaders and microfading testers are used to test and analyze light damage on cultural objects and potential light damage to objects in museum collections.<ref name="seven">Chiari, G. Conservation Science Investigation. International Preservation News. 2010, 50, 11-16.</ref>

Theory

Using a powerful xenon arc lamp, 1 lumen of light is focused through an optical fiber onto a 300–400 μm spot of the object’s surface. The reflected light is collected by a second fiber optic.<ref name="four"/> The period of exposure is monitored with a probe that transforms the reflectance spectrum into color coordinates in real-time. A typical microfading test is achieved in less than 10 minutes and replicates exposures equivalent to 5–12 years of display at normal museum light levels.<ref name="eight">del Hoyo-Melendez, J. Micro-fading Spectrometry. Fibers and Polymers. 2012, 13, 1079-1085.</ref> The output of the xenon arc lamp is kept at constant by an exposure controller while it is filtered to 400–710 nm using a water filter.<ref name="five">Arnaud, C.H. Shining Light On Art, Shining Light on Art. Chemical & Engineering News. 2009, 87, 44-55.</ref> The spectrum is then used to quantify the amount of time it would take for the color change to result in a noticeable difference. This information is used to retrofit display conditions and improve the protection of vulnerable objects. Calibration of the instrument is achieved by using internal standards such as the Blue Wool Scale.<ref name="two">Lerwill, A. Microfading: Questioning the Basics, Microfading: Questioning the Basics. Image Permanence Institute Bulletin. 2013.</ref>

Reliability

Concerns associated with microfading techniques include diffusion-limited photo-oxidation reaction rates, dehydration and heating of the sample, the variability of using and measuring ISO Blue Wool Standards,<ref name="eight"/> variation in spectral power distribution between lamps used in object display, and the lamp used in accelerated light aging, the small sampling area, the required number of sample the length of fading time and the potential interaction of individual chemical components of the object tested.<ref name="two"/>

Institutional Use

Cultural institutions that house their own instruments for microfadeometry include the Library of Congress and the National Gallery of Art in Washington DC, the Museum of Modern Art in New York, the Canadian Conservation Institute in Ottawa, the Los Angeles County Museum of Art, the Art Conservation Department at Buffalo State College in New York,<ref name="one">Museum Lighting Research, J. Paul Getty Trust. (2010, July).</ref> The National Archives (United Kingdom), the Scottish National Gallery (United Kingdom), Qatar National Library (Qatar), French National Centre for Scientific Research in Paris, Philadelphia Museum of Art in the USA, Gothenburg University in Sweden, National Museum of Art, Architecture and Design in Norway, Kunstmuseum Basel in Switzerland, United States Holocaust Memorial Museum, National Library of Norway, National Taiwan Museum of Fine Arts, State Academy of Fine Arts Stuttgart in Germany, and other institutions.<ref name="nine">Instytut Fotonowy Micro Fading Tester.(2020, February).</ref>

References

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