Alarcón, T. de, Hern, R. O. and Pearlstein, E. (2013). Case Studies in Basketry Repair: Two Abenaki Splint Baskets. Journal of the American Institute for Conservation, 51(2), pp. 123-143. http://doi.org/10.1179/019713612804860374
Arslanoglu, J., Centeno, S., Digney-Peer, S. and Duvernois, I. (2013). ‘Picasso in The Metropolitan Museum of Art’: an investigation of materials and techniques. Journal of the American Institute for Conservation, 52(3), pp. 140-155. http://doi.org/10.1179/1945233013Y.0000000007
Baldia, C. M. and Jakes, K. A. (2007). Photographic methods to detect colourants in archaeological textiles. Journal of Archaeological Science, 34(4), pp. 519-525. http://doi.org/10.1016/j.jas.2006.06.010
BSI Standards Publication. (2017). ISO 19264‑1:2017 Photography—Archiving systems—Image quality analysis. Geneva.
Capua, R. (2014). The Obscure History of a Ubiquitous Pigment: Phosphorescent Lithopone and Its Appearance on Drawings by John La Farge. Journal of the American Institute for Conservation, 53(3), pp. 75-88. http://doi.org/10.1179/1945233014Y.0000000022
CHARISMA: Technical Imaging. (2017). Retrieved 28 May 2018, from http://www.britishmuseum.org/research/research_projects/all_current_projects/charisma/technical_imaging.aspx
Choi, S. (2007). Foxing on Paper : A Literature Review. Journal of the American Institute for Conservation, 46(2), pp. 137-152. http://doi.org/10.1179/019713607806112378
Christens-Barry, W. A., Boydston, K., France, F. G., Knox, K. T., Easton, J. R. L. and Toth, M. B. (2009). Camera system for multispectral imaging of documents. In E. Bodegom & V. Nguyen (Eds.), Proc of SPIE-IS&T Electronic Imaging: Sensors Cameras and Systems for Industrial/Scientific Applications X (Vol. 7249, pp. 724908-724908–10). SPIE-IS&T. http://doi.org/10.1117/12.815374
Cosentino, A. (2015). Practical notes on ultraviolet technical photography for art examination. Conservar Patrimonio, 21, pp. 53-62. http://doi.org/10.14568/cp2015006
Daffner, L., Kushel, D. and Messinger, J. M. (1996). Investigation of a Surface Tarnish Found on 19th-Century Daguerreotypes. Journal of the American Institute for Conservation, 35(1), pp. 9-21. http://doi.org/10.1179/019713696806124584
Daveri, A., Vagnini, M., Nucera, F., Azzarelli, M., Romani, A. and Clementi, C. (2016). Visible-induced luminescence imaging: A user-friendly method based on a system of interchangeable and tunable LED light sources. Microchemical Journal, 125, pp. 130-141. http://doi.org/10.1016/j.microc.2015.11.019
de la Rie, E. R. (1982). Fluorescence of paint and varnish layers ( Part 1 ). Studies in Conservation, 27(1), pp. 1-7.
Dyer, J. and Sotiropoulou, S. (2017). A technical step forward in the integration of visible induced luminescence imaging methods for the study of ancient polychromy. Heritage Science, 5(24), pp. 1–21. http://doi.org/10.1186/s40494-017-0137-2
Dyer, J., Verri, G., and Cupitt, J. (2013). Multispectral Imaging in Reflectance and Photo-induced Luminescence modes: A User Manual. Retrieved from https://www.britishmuseum.org/pdf/charisma-multispectral-imaging-manual-2013.pdf
Garland, K. M., Bernstein, J., and Rogers, J. (2015). Raising Meret-It-Es: Examining and Conserving an Egyptian Anthropoid Coffin From 380–250 Bce. Journal of the American Institute for Conservation, 54(2), pp. 102-113. http://doi.org/10.1179/1945233015Y.0000000003
Geffert, S., Loike, A., Ruiz-Molina, M. and Serotta, A. (2018). A Workflow for Color and Tone Calibrated Multiband Imaging. Presentation at the American Institute for Conservation 46th Annual Meeting: Material Matters. Houston, TX.
Grant, M. S. (2000). The Use Of Ultraviolet Induced Visible-Fluorescence In The Examination Of Museum Objects , Part II. National Park Service: Department of the Interior.
Grifoni, E., Briganti, L., Marras, L., Orsini, S., Colombini, M. P., Legnaioli, S., … Palleschi, V. (2015). The chemical-physical knowledge before the restoration: the case of “The Plague in Lucca”, a masterpiece of Lorenzo Viani (1882–1936). Heritage Science, 3(1), p. 26. http://doi.org/10.1186/s40494-015-0055-0
Hickey-Friedman, L. (2002). A review of ultra-violet light and examination techniques. Objects Specialty Group Postprints (American Institute for Conservation of Historic and Artistic Works. Objects Specialty Group), 9, pp. 161–168.
Jue, E., Eng, C. W. and Takahatake, N. (2016). The Examination and Conservation of a Chiaroscuro Woodcut: Antonio da Trento’s Martyrdom of Two Saints, a Case Study. Journal of the American Institute for Conservation, 55(3), pp. 154-165. http://doi.org/10.1080/01971360.2016.1186358
Kakoulli, I. and Fischer, C. (2015). An Innovative Noninvasive and Nondestructive Multidisciplinary Approach for the Technical Study of the Byzantine Wall Paintings in the Enkleistra of St . Neophytos in Paphos , Cyprus. Washington, DC. Retrieved from http://www.doaks.org/research/byzantine/project-grant-reports/2008-2009/kakoulli-and-fischer
Kakoulli, I., Radpour, R., Lin, Y., Svoboda, M. and Fischer, C. (2017). Application of forensic photography for the detection and mapping of Egyptian blue and madder lake in Hellenistic polychrome terracottas based on their photophysical properties. Dyes and Pigments, 136, pp. 104-115. http://doi.org/10.1016/j.dyepig.2016.08.030
Knox, K. T. and Easton, R. L. (2003). Recovery of Lost Writings on Historical Manuscripts with Ultraviolet Illumination. In IS&T’s 2003 PICS Conference, pp. 301–306.
Lomax, S. Q. and Fisher, S. L. (1990). An Investigation of the Removability of Naturally Aged Synthetic Picture Varnishes. Journal of the American Institute for Conservation, 29(2), pp. 181-191. http://doi.org/10.1179/019713690806046037
Lyon, R. A. (1934). Ultra-violet Rays as Aids to Restorers. Technical Studies in the Field of the Fine Arts, 2, pp. 153-157.
Mairinger, F. (2000). The ultraviolet and fluorescence study of paintings and manuscripts. In D. C. Creagh and D. A. Bradley (Eds.), Radiation in Art and Archeometry, pp. 56-75. New York: Elsevier.
McGlinchey Sexton, J., Messier, P. and Chen, J. J. (2014). Development and Testing of a Fluorescence Standard for Documenting Ultraviolet Induced Visible Fluorescence. In 42nd Annual American Institute for Conservation Meeting, pp. 1-42. San Francisco: American Institute for Conservation.
McGlinchey Sexton, J. and Messier, P. (2015). Permanence of the Target-UVTM and UV-GrayTM. Retrieved from http://docs.wixstatic.com/ugd/750e25_77a29ae0fb3a459b9fe83189272b9bf1.pdf
Muir, K. and Khandekar, N. (2006). The Technical Examination of a Painting that Passed Through the Hands of Sienese Restorer and Forger Icilio Federico Joni. Journal of the American Institute for Conservation, 45(1), pp. 31-49. http://doi.org/10.1179/019713606806082201
Neiro, M. (2003). Adhesive Replacement: Potential New Treatment for Stabilization of Archaeological Ceramics. Journal of the American Institute for Conservation, 42(2), pp. 237-244. http://doi.org/10.1179/019713603806112822
Orlofsky, P. and Kaldany, M. (2014). Henri Matisse’s Silkscreen on Linen Editions Océanie, Le Ciel, and La Mer, 1946-1949: Development of a Conservation Protocol. Journal of the American Institute for Conservation, 53(4), pp. 252-274. http://doi.org/10.1179/1945233014Y.0000000028
Pearlstein, E., Hughs, M., Mazurek, J., Mcgraw, K., Pesme, C., Riedler, R., and Gleeson, M. (2015). Ultraviolet-induced visible fluorescence and chemical analysis as tools for examining feather work. Journal of the American Institute for Conservation, 54(3), pp. 149-167. http://doi.org/10.1179/1945233015Y.0000000010
Radley, J. A. and Grant, J. (1933). Fluorescence Analysis in Ultra-violet Light (1st ed.). London: Chapman & Hall Ltd.
Radley, J. A. and Grant, J. (1935). Fluorescence Analysis in Ultra-violet Light (2nd ed.). London: Chapman & Hall Ltd.
Radley, J. A. and Grant, J. (1939). Fluorescence Analysis in Ultra-violet Light (3rd ed.). London: Chapman & Hall Ltd.
Radley, J. A. and Grant, J. (1959). Fluorescence Analysis in Ultra-violet Light. (E. H. Tripp, Ed.) (4th ed.). London: Chapman & Hall Ltd.
Rava, A., Radelet, T., Giovagnoli, A., Poli, T., and Piccirillo, A. (2013). Short Communication : The Painting Materials in a Work of The Futurist Artist Giacomo Balla Short Communication: The Painting Materials in a Work. Journal of the American Institute for Conservation, 52(4), pp. 227-235. http://doi.org/10.1179/1945233013Y.0000000009
Ravines, P., Baum, K. G., Cox, N. A., Welch, S., and Helguera, M. (2014). Multimodality Imaging of Daguerreotypes and Development of a Registration Program for Image Evaluation. Journal of the American Institute for Conservation, 53(1), pp. 19-32. https://doi.org/10.1179/1945233013Y.0000000014
Reilly, J. A. and Mortimer, M. (1998). The Care and Conservation of Glass Chandeliers. Journal of the American Institute for Conservation, 37(2), pp. 149-172. http://doi.org/10.1179/019713698806082886
Riedler, R., Pesme, C., Druzik, J., Gleeson, M., and Pearlstein, E. (2014). A review of color-producing mechanisms in feathers and their influence on preventive conservation strategies. Journal of the American Institute for Conservation, 53(1), pp. 44-65.
https://doi.org/10.1179/1945233013Y.0000000020
Rieger, T. (Ed.). (2016). Technical Guidelines for Digitizing Cultural Heritage Materials : Creation of Raster Image Files. Federal Agencies Digitization Guidelines Initiative. Rochester. Retrieved from http://www.digitizationguidelines.gov/guidelines/FADGI_Still_Image-Tech_Guidelines_2010-08-24.pdf
Rogge, C. E. and Lough, K. (2013). Fluorescence Fails : the Color of UVA-Induced Visible Fluorescence of Tintype Varnishes does not Discriminate between Varnish Materials. Topics in Photographic Preservation, 15, pp. 239-248. Retrieved from http://resources.conservation-us.org/pmgtopics/2013-volume-fifteen/36-T15_Rogge.pdf
Rorimer, J. J. (1931). Ultra-violet rays and their use in the examination of works of art. the Met Museum. New York: The Metropolitan Museum of Art.
Rorimer, J. J. (1934). Ultra-violet Rays and a Mino da Fiesole Problem. Technical Studies in the Field of the Fine Arts, 2, pp. 71-80.
Russell, J., Rayner, J. and Bescoby, J. (2017). Northern European Metalpoint Drawings: Technical Examination and Analysis. (A. P. Ltd., Ed.). London: Archetype Publications Ltd.
Scolf, D. A. and Schilling, M. (1991). The Pigments of the Canosa Vases: A Technical Note. Journal of the American Institute for Conservation, 30(1), pp. 35-40. http://doi.org/10.1179/019713691806373259
Tanimoto, S. and Verri, G. (2009). A Note on the Examination of Silverpoint Drawings by Near-Infrared Reflectography. Studies in Conservation, 54, pp. 106-116.
Tragni, C. B., Chen, J., and Kushel, D. (2005). The Use of Ultraviolet-Induced Visible Fluorescence for Examination of Photographs. Capstone Research Project, Advanced Residency Program in Photograph Conservation, George Eastman House/Image Permanence Institute.
Rochester, NY. Retrieved from https://www.eastman.org/advanced-residency-program-photograph-conservation-capstoneresearch-projects
UV Innovations: Ultraviolet Photography Standards. (2017). Retrieved 28 May 2018, from http://www.uvinnovations.com/
van Dormolen, H. (2012). Metamorfoze Preservation Imaging Guidelines. The Hague. Retrieved from https://www.metamorfoze.nl/publicatie/metamorfoze-preservation-imaging-guidelines-10
Verri, G., Comelli, D. Cather, S., Saunders, D., and Piqué, F. (2008). Post-capture data analysis as an aid to the interpretation of ultraviolet-induced fluorescence images. In Computer Image Analysis in the Study of Art, David G. Stork, Jim Coddington Eds.. Proc. of SPIE-IS&T Electronic Imaging, SPIE Vol. 6810. 2008 SPIE-IS&T 0277-786X/08/$18. SPIE-IS&T/ Vol. 6810 681002-1.
https://doi.org/10.1117/12.764463
Verri, G. (2009). The application of visible-induced luminescence imaging to the examination of museum objects. In O3A: Optics for Arts, Architecture, and Archaeology II (Vol. Proc SPIE). Munich: SPIE. http://doi.org/10.1117/12.827331
Warda, J., Frey, F., Heller, D., Vitale, T., and Weaver, G. (2011). The AIC Guide to Digital Photography and Conservation Documentation. (J. Warda, Ed.) (2nd ed.). Washington, DC: American Institute for Conservation of Historic and Artistic Works.