Difference between revisions of "Fiber optics reflectance spectroscopy (FORS)"

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[[File:MFA FORS Blue spectra.jpg|thumb|FORs spectra for Dayflower and Indigo colorant commonly used on Japanese prints of the Edo period]]
 
[[File:MFA FORS Blue spectra.jpg|thumb|FORs spectra for Dayflower and Indigo colorant commonly used on Japanese prints of the Edo period]]
 
==Description==  
 
==Description==  
A non-invasive analysis technique that can identify some types of colorant colorants. Fiber Optic Reflectance spectroscopy (FORS) uses a fiber optic probe and a pulsed xenon source to provide good sensitivity to examine small areas with a specific wavelength of light then measure the spectral reflectance emitted from the impinged area.  The fiber optics probe minimizes the interference from ambient light. The identification of a pigment based on its reflectance is based on the comparison of standards that were prepared as closely as possible to the artist techniques.   
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One technique used to measure the spectral curve li light reflected from a colored surface.  Fiber Optic Reflectance spectroscopy (FORS) is a non-invasive analysis technique that can identify some types of colorants. It uses a fiber optic probe and a pulsed xenon source to provide good sensitivity to examine small areas with a specific wavelength of light then measure the spectral reflectance emitted from the impinged area.  The fiber optics probe minimizes the interference from ambient light. The identification of a pigment based on its reflectance is based on the comparison of standards that were prepared as closely as possible to the artist techniques.   
  
 
For the Japanese woodblock prints of the Edo period (see Ukiyo-e Colorants), the most common blue colorants were dayflower, indigo, and later Prussian blue are easily identified by FORS as shown in the graph. This identification can be accomplished, not only in blue printed areas, but also in greens and purples, which are a combination of a blue and another colorant (yellow, red).   
 
For the Japanese woodblock prints of the Edo period (see Ukiyo-e Colorants), the most common blue colorants were dayflower, indigo, and later Prussian blue are easily identified by FORS as shown in the graph. This identification can be accomplished, not only in blue printed areas, but also in greens and purples, which are a combination of a blue and another colorant (yellow, red).   
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==Synonyms==
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Color spectroscopy
  
 
==Resources and Citations==
 
==Resources and Citations==
 
* IFAC: [https://spectradb.ifac.cnr.it/fors/ FORS reference spectra database]
 
* IFAC: [https://spectradb.ifac.cnr.it/fors/ FORS reference spectra database]
 
* CHSOS: [https://chsopensource.org/pigments-checker/?mc_cid=2b8fe440b5&mc_eid=f7439a02d7 Pigment Checker Database]
 
* CHSOS: [https://chsopensource.org/pigments-checker/?mc_cid=2b8fe440b5&mc_eid=f7439a02d7 Pigment Checker Database]
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* National Gallery of Art, Scientific Research: [https://www.nga.gov/conservation/glossary.html Glossary of Conservation Terminology]

Revision as of 07:31, 18 January 2024

FORs spectra for Dayflower and Indigo colorant commonly used on Japanese prints of the Edo period

Description

One technique used to measure the spectral curve li light reflected from a colored surface. Fiber Optic Reflectance spectroscopy (FORS) is a non-invasive analysis technique that can identify some types of colorants. It uses a fiber optic probe and a pulsed xenon source to provide good sensitivity to examine small areas with a specific wavelength of light then measure the spectral reflectance emitted from the impinged area. The fiber optics probe minimizes the interference from ambient light. The identification of a pigment based on its reflectance is based on the comparison of standards that were prepared as closely as possible to the artist techniques.

For the Japanese woodblock prints of the Edo period (see Ukiyo-e Colorants), the most common blue colorants were dayflower, indigo, and later Prussian blue are easily identified by FORS as shown in the graph. This identification can be accomplished, not only in blue printed areas, but also in greens and purples, which are a combination of a blue and another colorant (yellow, red).

Synonyms

Color spectroscopy

Resources and Citations