Complete list of papers published on OCT for examination of artwork

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Papers are listed in reverse chronological order
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177. J. Verheyen, D. Buti, L. Cartechini, R. Fontana, M. Iwanicka, M. Raffaelli, P. Targowski, "A multi-disciplinary analysis of the Portrait of Philip the Good in Dijon" Heritage Science 12(1), pp. 309, doi: 10.1186/s40494-024-01414-y, (2024) PDF
176.M. Galeotti, S. Porcinai, A. Cagnini, M. Baruffetti, C. Biondi, A. Dal Fovo, R. Fontana, "Organic Patinas on Small Historical Bronzes: From Mock-Ups to Actual Artworks" Coatings 14(2), pp. 212, doi: https://doi.org/10.3390/coatings14020212, (2024) PDF
175.M.K. Faluweki, C.S. Cheung, H. Liang, "Simultaneous measurement of refractive index and dispersion using optical coherence tomography for restoration of transparent works of art" The European Physical Journal Plus 138(9), pp. 825, doi: https://doi.org/10.1140/epjp/s13360-023-04458-4, (2023) PDF
174.L.B. Brostoff, C.L. Ward-Bamford, S. Zaleski, T. Villafana, A.C. Buechele, I.S. Muller, F. France, M. Loew, "Glass at risk: A new approach for the study of 19th century vessel glass" Journal of Cultural Heritage 54, pp. 155-166, doi: https://doi.org/10.1016/j.culher.2022.01.013, (2022) PDF
173.M. Read, C.S. Cheung, H. Liang, A. Meek, C. Korenberg, "A Non-invasive Investigation of Egyptian Faience Using Long Wavelength Optical Coherence Tomography (OCT) at 2 μm" Studies in Conservation 67(3), pp. 168-175, doi: 10.1080/00393630.2020.1871208, (2022) PDF
172.S. Tao, S. Liu, J. Dong, Y. Yuan, Q. Li, "Morphological and structural analysis of iron-rich porcelains excavated from the Jian kiln site of Song dynasty" Journal of Microscopy 292(1), pp. 3-18, doi: https://doi.org/10.1111/jmi.13215, (2023) PDF
171.A. Dal Fovo, M. Martínez-Weinbaum, M. Oujja, M. Castillejo, R. Fontana, "Reflectance Spectroscopy as a Novel Tool for Thickness Measurements of Paint Layers" Molecules 28(12), pp. 4683, (2023) PDF
170.T. Palomar, M. Iwanicka, I. Pombo Cardoso, M. Vilarigues, P. Targowski, "Assessing the decorative techniques of two Art Nouveau glass windows by optical coherence tomography (OCT)" Heritage Science 11(1), pp. 203, doi: 10.1186/s40494-023-01048-6, (2023) PDF
169.A. Rygula, M. Matosz, A. Mogielska, M. Iwanicka, P. Targowski, M. Obarzanowski, J.M. del Hoyo-Meléndez, Non-invasive Analysis of the Pigment Palette Used by the Renaissance Painter Sofonisba Anguissola, in: R. Furferi, L. Governi, Y. Volpe, F. Gherardini, K. Seymour (Eds.) The Future of Heritage Science and Technologies, Springer International Publishing, Cham, 2023, pp. 277-291, (2023)
168.X. Zhou, D. In, X. Xiong, K. Yang, X. Chen, H.M. Bruhn, X. Liu, Y. Yang, "A Note on Macroscopic Optical Coherence Tomography Imaging Enabled 3D Scanning for Museum and Cultural Heritage Applications" Journal of the American Institute for Conservation, pp. 1-10, doi: 10.1080/01971360.2022.2093537, (2022) PDF
167.M. Iwanicka, P. Moretti, K. Pilz, B. Doherty, L. Cartechini, M. Geldof, S. de Groot, C. Miliani, P. Targowski, "Congregation leaving the Reformed Church in Nuenen by Vincent van Gogh: a combined multi-instrumental approach to analyse the painting’s stratigraphy in support of varnish removal" Heritage Science 10(1), pp. 167, doi: 10.1186/s40494-022-00789-0, (2022) PDF
166.Á. Csepregi, Z. Szikszai, P. Targowski, M. Sylwestrzak, K. Müller, R. Huszánk, A. Angyal, B. Döncző, Z. Kertész, M. Szarka, I. Reiche, "Possible modifications of parchment during ion beam analysis" Heritage Science 10(1), pp. 140, doi: 10.1186/s40494-022-00781-8, (2022) PDF
165.S. Kim, S.M. Park, S. Bak, G.H. Kim, C.-S. Kim, J. Jun, C.E. Kim, K. Kim, "Investigation of craquelure patterns in oil paintings using precise 3D morphological analysis for art authentication" Plos One 17(7), pp. e0272078, doi: 10.1371/journal.pone.0272078, (2022) PDF
164.J. Du, T. Eckfeld, J. Yang, F. Jiang, Q. Zhang, Y. Shao, "A Sui-Tang dynasty woman’s crown: analyzing form, glass and class" Heritage Science 10(1), pp. 45, doi: 10.1186/s40494-022-00679-5, (2022) PDF
163.E. Wang, Y. Xiong, Y. Zhu, J. Wu, Y. Gong, Z. Licheng, "Petrographic Analysis of Ancient High-Temperature Ceramic Glazes and Inorganic Restoration Materials" Studies in Conservation, pp. 1-10, doii: 10.1080/00393630.2021.1997022, (2021) PDF
162.T. Ford, M. Iwanicka, E. Platania, P. Targowski, E. Hendriks, "Munch and optical coherence tomography: unravelling historical and artist applied varnish layers in painting collections" The European Physical Journal Plus 136(9), pp. 899, doi: 10.1140/epjp/s13360-021-01758-5, (2021) PDF
161.A. Dal Fovo, J. Striova, E. Pampaloni, R. Fontana, "Unveiling the Invisible in Uffizi Gallery's Drawing 8P by Leonardo with Non-Invasive Optical Techniques" Applied Sciences 11, pp. 7995, doi: 10.3390/app11177995, (2021) PDF
160.M. Almasian, M. Tiennot, L.D. Fiske, E. Hermens, "The use of ground glass in red glazes: structural 3D imaging and mechanical behaviour using optical coherence tomography and nanoindentation" Heritage Science 9(1), pp. 66, doi: 10.1186/s40494-021-00527-y, (2021) PDF
159.B. Łydżba-Kopczyńska, M. Iwanicka, M. Kowalska, P. Targowski, "Combining macro-XRF, OCT, and sampling techniques in the authentication study of the painting attributed to Michael Willmann" X-Ray Spectrometry 50, pp. 384-400, doi: 10.1002/xrs.3217, (2021) PDF
158.C. Invernizzi, G. Fiocco, M. Iwanicka, P. Targowski, A. Piccirillo, M. Vagnini, M. Licchelli, M. Malagodi, D. Bersani, "Surface and Interface Treatments on Wooden Artefacts: Potentialities and Limits of a Non-Invasive Multi-Technique Stud" Coatings 11(1), 29, doi: 10.3390/coatings11010029, (2021) PDF
157.C.L. Koch Dandolo, V. Detalle, J.-B. Bodiguel, M. Lopez, X. Bai, D. Martos-Levif, A. Genty-Vincent, C. Pasquali, M. Menu, "Insights into the Blanching of Water-Damaged Varnish by Means of Spectral-Domain Optical Coherence Tomography" Studies in Conservation, pp. 1-10, doi: 10.1080/00393630.2020.1825901, (2020) PDF
156.M. Iwanicka, C. Vlachou-Mogire, L. Pereira-Pardo, M. Sylwestrzak, M. Kowalska, P. Targowski, "Non-invasive Survey of Rubens’ Ceiling Paintings at the Banqueting House Whitehall, London, by Means of Optical Coherence Tomography" Studies in Conservation, pp. 1-7, doi: 10.1080/00393630.2020.1825900, (2020) PDF
155.R. Herrera Garrido, S. de Groot, T. Callewaert-Dore, "The Coated Salted Paper Prints from the Eduard Isaac Asser Collection at the Rijksmuseum: FTIR and OCT Identification and Characterization" Journal of the American Institute for Conservation, pp. 1-16, doi: 10.1080/01971360.2020.1774725, (2020) PDF
154.A. van Loon, P. Noble, D. de Man, M. Alfeld, T. Callewaert, G. Van der Snickt, K. Janssens, J. Dik, "The role of smalt in complex pigment mixtures in Rembrandt’s Homer 1663: combining MA-XRF imaging, microanalysis, paint reconstructions and OCT" Heritage Science 8(1), pp. 90, doi: 10.1186/s40494-020-00429-5, (2020) PDF
153.T. Callewaert, J. Guo, G. Harteveld, A. Vandivere, E. Eisemann, J. Dik, J. Kalkman, "Multi-scale optical coherence tomography imaging and visualization of Vermeer’s Girl with a Pearl Earring" Opt. Express 28(18), pp. 26239-26256, doi: 10.1364/oe.390703, (2020) PDF
152.F. Poggialini, G. Fiocco, B. Campanella, S. Legnaioli, V. Palleschi, M. Iwanicka, P. Targowski, M. Sylwestrzak, C. Invernizzi, T. Rovetta, M. Albano, M. Malagodi, "Stratigraphic analysis of historical wooden samples from ancient bowed string instruments by laser induced breakdown spectroscopy" Journal of Cultural Heritage 44, pp. 275-284, doi: 10.1016/j.culher.2020.01.011, (2020) PDF
151.G. Osipowicz, J. Orłowska, M. Bosiak, M.A. Manninen, P. Targowski, J. Sobieraj, "Slotted bone point from Tłokowo – rewritten story of a unique artefact from Mesolithic Poland" Praehistorische Zeitschrift 95, pp. 334-349, doi: 10.1515/pz-2020-0023, (2020) PDF
150.X. Zhou, D. In, X. Chen, H. McCune Bruhn, X. Liu, Y. Yang, "Spectral 3D reconstruction of impressionist oil paintings based on macroscopic OCT imaging" Appl. Opt. 59(15), pp. 4733-4738, doi: 10.1364/ao.390326, (2020) PDF
149.A. Dal Fovo, M. Sanz, M. Oujja, R. Fontana, S. Mattana, R. Cicchi, P. Targowski, M. Sylwestrzak, A. Romani, C. Grazia, G. Filippidis, S. Psilodimitrakopoulos, A. Lemonis, M. Castillejo, "In-Depth Analysis of Egg-Tempera Paint Layers by Multiphoton Excitation Fluorescence Microscopy." Sustainability 12(9), 3831, doi: 10.3390/su12093831, (2020) PDF
148.G. Osipowicz, J. Orłowska, G. Piličiauskas, G. Piličiauskienė, E. Rannamäe, K. Cyrek, M. Sylwestrzak, "Stone Age technologies and human behaviors as reflected in decoration of osseous artefacts from the northern part of East-Central Europe" Quaternary International, 569-570, pp. 66-83, doi: 10.1016/j.quaint.2020.04.014, (2020) PDF
147.C. Vlachou-Mogire, P. Moretti, L. Monico, A. Chieli, M. Iwanicka, P. Targowski, V. Detalle, E. Bourguignon, K. Laclavetine, F. Mirambet, T. Tong, S. Pinchin, "A non-invasive multi-technique investigation of Banqueting House Whitehall Rubens ceiling paintings" Microchemical Journal 156, pp. 104797, doi: 10.1016/j.microc.2020.104797, (2020) PDF and doi: 10.1016/j.microc.2021.106624 PDF
146.C. Invernizzi, G. Fiocco, M. Iwanicka, M. Kowalska, P. Targowski, B. Blümich, C. Rehorn, V. Gabrielli, D. Bersani, M. Licchelli, M. Malagodi, "Non-invasive mobile technology to study the stratigraphy of ancient Cremonese violins: OCT, NMR-MOUSE, XRF and reflection FT-IR spectroscopy" Microchemical Journal 155, pp. 104754, doi: 10.1016/j.microc.2020.104754, (2020) PDF
145.W.S. Elkhuizen, T.W.J. Callewaert, E. Leonhardt, A. Vandivere, Y. Song, S.C. Pont, J.M.P. Geraedts, J. Dik, "Comparison of three 3D scanning techniques for paintings, as applied to Vermeer’s ‘Girl with a Pearl Earring’" Heritage Science 7(1), pp. 89, doi: 10.1186/s40494-019-0331-5, (2019) PDF
144.D. Lazidou, I. Teknetzi, I. Karapanagiotis, C. Ritzoulis, C. Panayiotou, "Poly(vinyl alcohol)-borax films as cleaning agents for icons" Archaeological and Anthropological Sciences, doi: 10.1007/s12520-019-00917-1, (2019) PDF
143.R. Tong, M. Hu, X. Liu, Q. Zhang, H. Ge, T. Gang, X. Bai, C. Zuo, C. Bian, "Spectral-Domain Optical Coherence Tomography for the Non-Invasive Investigation of the Pigment Layers of Tang Dynasty Tomb Murals Exhibited in Museums" Optik, pp. 163311, doi: 10.1016/j.ijleo.2019.163311, (2019) PDF
142.P. Targowski, M. Kowalska, M. Sylwestrzak, M. Iwanicka, "OCT for examination of cultural heritage objects", in: M. Wang (Ed.) Optical Coherence Tomography and Its Non-medical Applications, IntechOpen, p. 147-164, doi: 10.5772/intechopen.88215, (2020) PDF
141.A. Vandivere, A. van Loon, T. Callewaert, R. Haswell, A.N. Proaño Gaibor, H. van Keulen, E. Leonhardt, J. Dik, "Fading into the background: the dark space surrounding Vermeer’s Girl with a Pearl Earring" Heritage Science 7(1), pp. 69, doi: 10.1186/s40494-019-0311-9, (2019) PDF
140.A. Vichi, A. Artesani, C.S. Cheung, A. Piccirillo, D. Comelli, G. Valentini, T. Poli, A. Nevin, P. Croveri, H. Liang, "An exploratory study for the noninvasive detection of metal soaps in paintings through optical coherence tomography" Proc. SPIE Optical Metrology 11058, doi: 10.1117/12.2527569, (2019) PDF
139.M. Read, C.S. Cheung, D. Ling, C. Korenberg, A. Meek, S. Kogou, H. Liang, "A non-invasive investigation of Limoges enamels using both Optical Coherence Tomography (OCT) and spectral imaging: a pilot study" Proc. SPIE Optical Metrology 11058, (2019) doi: 10.1117/12.2527092, PDF
138.L. Brostoff, C.L.W. Bamford, T. Diba, A. Buechele, M. Loew, J. Zara, "Optical coherence tomography of 19th century glass: facts and phantoms" Proc. SPIE Optical Metrology 11058, (2019) doi: 10.1117/12.2526170, link
137.I. Zorin, J. Kilgus, R. Su, B. Lendl, M. Brandstetter, B. Heise, "Multimodal mid-infrared optical coherence tomography and spectroscopy for non-destructive testing and art diagnosis" Proc. SPIE Optical Metrology 11058, (2019) doi: 10.1117/12.2528279, link
136.B. Xu, K. He, P. Hao, J. Gao, F. Willomitzer, A.K. Katsaggelos, J.E. Tumblin, O. Cossairt, M.S. Walton, "Time-domain optical coherence tomography can measure artworks with high penetration and high resolution" Proc. SPIE Optical Metrology 11058, doi: 10.1117/12.2525649, (2019) link
135.P. Moretti, M. Iwanicka, K. Melessanaki, E. Dimitroulaki, O. Kokkinaki, M. Daugherty, M. Sylwestrzak, P. Pouli, P. Targowski, K.J. van den Berg, L. Cartechini, C. Miliani, "Laser cleaning of paintings: in situ optimization of operative parameters through non-invasive assessment by optical coherence tomography (OCT), reflection FT-IR spectroscopy and laser induced fluorescence spectroscopy (LIF)" Heritage Science 7(1), pp. 44, doi: 10.1186/s40494-019-0284-8, (2019) PDF
134.K.J. van den Berg, E. Hendriks, M. Geldof, S. de Groot, I. van der Werf, C. Miliani, P. Moretti, L. Cartechini, L. Monico, M. Iwanicka, P. Targowski, M. Sylwestrzak, W. Genuit, Structure and Chemical Composition of the Surface Layers in the Amsterdam Sunflowers in: E. Hendriks, M. Vellekoop (Eds.) Van Gogh's Sunflowers Illuminated Art Meets Science, Amsterdam University Press/Van Gogh Museum Amsterdam, Amstardam, 2019, pp. 159-173
133.E. Hendriks, M. Geldof, K.J. van den Berg, L. Monico, C. Miliani, P. Moretti, M. Iwanicka, P. Targowski, L. Megens, S. de Groot, H. van Keulen, K. Janssens, F. Vanmeert, G. Van der Snickt, Conservation of the Amsterdam Sunflowers: From Past to Future, in: E. Hendriks, M. Vellekoop (Eds.) Van Gogh's Sunflowers Illuminated Art Meets Science, Amsterdam University Press/Van Gogh Museum Amsterdam, Amstardam, 2019, pp. 175-205
132.M. Iwanicka, M. Sylwestrzak, A. Szkulmowska, P. Targowski, Optical Coherence Tomography (OCT), in: E. Hendriks, M. Vellekoop (Eds.) Van Gogh's Sunflowers Illuminated Art Meets Science, Amsterdam University Press/Van Gogh Museum Amsterdam, Amstardam, 2019, pp. 207-208
131.C.L. Koch Dandolo, M. Lopez, K. Fukunaga, Y. Ueno, R. Pillay, D. Giovannacci, Y. Le Du, X. Bai, M. Menu, V. Detalle, "Toward a multimodal fusion of layered cultural object images: complementarity of optical coherence tomography and terahertz time-domain imaging in the heritage field" Appl. Opt. 58(5), pp. 1281-1290, doi: 10.1364/ao.58.001281, (2019) link
130.G. Fiocco, T. Rovetta, C. Invernizzi, M. Albano, M. Malagodi, M. Licchelli, A. Re, A. Lo Giudice, G.N. Lanzafame, F. Zanini, M. Iwanicka, P. Targowski, M. Gulmini, "A Micro-Tomographic Insight into the Coating Systems of Historical Bowed String Instruments" Coatings 9(2), pp. 81, (2019) PDF
129.I. Gurov, N. Margaryants, E. Zhukova, "Evaluation of art subjects implemented in the marquetry technique by the optical coherence microscopy method" Strain 55(2). e12304, doi: doi:10.1111/str.12304, PDF
128.G.J. Tserevelakis, K. Melessanaki, R. Fontana, G. Zacharakis, "Photoacoustic signal attenuation analysis for the assessment of thin layers thickness in paintings" Journal of Applied Physics 123 p. 123102, doi.org/10.1063/1.5022749, PDF
127.M. Iwanicka, M. Sylwestrzak, P. Targowski, "Optical Coherence Tomography (OCT) for Examination of Artworks", in: D.M. Bastidas, E. Cano (Eds.) Advanced Characterization Techniques, Diagnostic Tools and Evaluation Methods in Heritage Science, Springer International Publishing, Cham, 2018, pp. 49-59 PDF or PDF of a Green OA accepted version
126.D. Duggins, F. Li, M. Aalders, O. Cossairt, A. Katsaggelos, M. Walton, "A Novel OCT Design for Cultural Heritage Applications" Microscopy and Microanalysis 24(S1), pp. 2142-2143, doi: 10.1017/s1431927618011194, (2018) PDF
125.P. Targowski, M. Iwanicka, M. Sylwestrzak, C. Frosinini, J. Striova, R. Fontana, "Using Optical Coherence Tomography to Reveal the Hidden History of The Landsdowne Virgin of the Yarnwinder by Leonardo da Vinci and Studio" Angewandte Chemie" Angewandte Chemie 57(25) pp. 7396-7400, doi: 10.1002/anie.201713356 (2018) PDF or PDF of a Green OA accepted version; Supported Information: use article's link or PDF of a Green OA accepted version
124.D. Thickett, C.S. Cheung, H. Liang, J. Twydle, R.G. Maev, D. Gavrilov, "Using non-invasive non-destructive techniques to monitor cultural heritage objects" Insight - Non-Destructive Testing and Condition Monitoring 59(5), pp. 230-234, doi: 10.1784/insi.2017.59.5.230, (2017) PDF
123.M. Iwanicka, M. Sylwestrzak, A. Szkulmowska, P. Targowski, "Pre-restoration condition of superficial layers of the Adoration of the Magi by Leonardo da Vinci as seen by optical coherence tomography", in: M. Ciatti, C. Frosinini (Eds.) Il restauro dell’Adorazione dei Magi di Leonardo La riscoperta di un capolavoro, Edifir, Florence, 2017, pp. 287-293 PDF
122.J. Striova, A. Dal Fovo, V. Fontani, M. Barucci, E. Pampaloni, M. Raffaelli, R. Fontana, "Modern acrylic paints probed by optical coherence tomography and infrared reflectography" Microchemical Journal 138, pp. 65-71, doi: https://doi.org/10.1016/j.microc.2017.12.027, (2018) PDF
121.M. Iwanicka, P. Moretti, S. van Oudheusden, M. Sylwestrzak, L. Cartechini, K.J. van den Berg, P. Targowski, C. Miliani, "Complementary use of Optical Coherence Tomography (OCT) and Reflection FTIR spectroscopy for in-situ non-invasive monitoring of varnish removal from easel paintings" Microchemical Journal, 138, pp. 7-18 (2018) doi: 10.1016/j.microc.2017.12.016: on line: 2017: PDF or author-prepared preprint
120.M. Iwanicka, J. Musiela, J.W. Łukaszewicz, H. Stoksik, M. Sylwestrzak, "The potential of OCT for assessing laser assisted removal of deposits from ceramic tiles", in: P. Targowski, M. Walczak, P. Pouli (Eds.) Lasers in the Conservation of Artworks XI, Proceedings of the International Conference LACONA XI, Kraków, Poland, 20-23 September 2016, NCU Press, Torun, (2017), PDF
119.A. Gibson "Imaging the first printed edition of Euclid’s Elements" (2017) blog
118.T. Callewaert, J. Dik, J. Kalkman, "Segmentation of thin corrugated layers in high-resolution OCT images" Opt. Express 25(26), pp. 32816-32828, doi: 10.1364/oe.25.032816, (2017) PDF
117.S. Hwang, H. Song, S.-W. Cho, C.E. Kim, C.-S. Kim, K. Kim, "Optical measurements of paintings and the creation of an artwork database for authenticity" PLoS ONE 12(2), pp. e0171354, doi: 10.1371/journal.pone.0171354, (2017) PDF
116.H. Liang, M. Mari, C.S. Cheung, S. Kogou, P. Johnson, G. Filippidis, "Optical coherence tomography and non-linear microscopy for paintings – a study of the complementary capabilities and laser degradation effects" Opt. Express 25(16), pp. 19640-19653, doi: 10.1364/OE.25.019640, (2017) PDF
115.P. Liu, M. Hall-Aquitania, E. Hermens, R.M. Groves, "Mapping the opacity of paint layers in paintings with coloured grounds using optical coherence tomography" Proc. SPIE 10331, pp. 103310C, doi: 10.1117/12.2270273, (2017)
114.H. Welp, M. Lenz, C. Mazzon, C. Dillmann, N.C. Gerhardt, M. Prange, M.R. Hofmann, "Nondestructive evaluation of protective coatings for the conservation of industrial monuments" Proc. SPIE 10331, pp. 1033109 doi: 10.1117/12.2270170, (2017)
113.M. Lenz, C. Mazzon, C. Dillmann, N.C. Gerhardt, H. Welp, M. Prange, M.R. Hofmann, "Spectral Domain Optical Coherence Tomography for Non-Destructive Testing of Protection Coatings on Metal Substrates" Applied Sciences 7, pp. 364, doi: 10.3390/app7040364, (2017)
112.F. Zaki, I. Hou, Q. Huang, D. Cooper, D. Patel, X. Liu, Y. Yang, "Optical coherence tomography for non-invasive examination and conservation of cultural heritage objects" Proc. SPIE 10110, pp. 101100F-101101 - 101100F-101106, (2017) PDF
111. M. Iwanicka, Ł. Ćwikliński, P. Targowski, ""Combined use of Optical Coherence Tomography and macroXRF imaging for non-invasive evaluation of past alterations in 17th c. Dutch painting," in Proceedings of 2nd International Conference on Art & Archaeology 2016, Jerusalem, Israel, (2016) PDF
110.S. Kogou, S. Neate, C. Coveney, A. Miles, D. Boocock, L. Burgio, C.S. Cheung, H. Liang, "The origins of the Selden map of China: scientific analysis of the painting materials and techniques using a holistic approach" Heritage Science 4(28), doi: 10.1186/s40494-016-0098-x, (2016) PDF
109.F. Zaki, I. Hou, D. Cooper, D. Patel, Y. Yang, X. Liu, "High-definition optical coherence tomography imaging for noninvasive examination of heritage works" Appl. Opt. 55(36), pp. 10313-10317, doi: 10.1364/AO.55.010313, (2016) PDF
108.M. Walczak, M. Kamińska, J. Sobczyk, M. Płotek, D. Horzela, M. Sylwestrzak, P. Targowski, "The Application of Non-invasive Analytical Techniques in the Investigation and Documentation of Medieval Stained-Glass Windows from the Grodziec Collection" in ICOM-CC Working Group “Glass and Ceramics” Interim Meeting, Wrocław, Poland H. Roemich, L. Fair Eds., International Council of Museums - Committee for Conservation (ICOM-CC), Paris (2016), pp: 21-30, ISBN: 978-83-64419-80-5
107.Natalie Ritchie, "At Duke, sibling sleuths try to unlock mummy mystery" The News Observer, March 1, 2016 PDF
106.T.C. Moran, A.D. Kaye, A. Rao, Bueno, F.R. Bueno, "The roles of X rays and other types of electromagnetic radiation in evaluating paintings for forgery and restoration" Journal of Forensic Radiology and Imaging, doi: 10.1016/j.jofri.2016.02.001, (2016) PDF
105. Y. Xin, D. Junqing, L. Weidong, L. Qinghui, "Research on Texture Characteristics Analysis of Ancient Glaze Optical Coherence Tomographic Image" Chinese Journal of :Lasers 42(5), pp. 0508008-1 - 0508008-7, (2015) [in Chinese]
104. M. Iwanicka, G. Lanterna, C.G. Lalli, F. Innocenti, M. Sylwestrzak, P. Targowski, "On the application of Optical Coherence Tomography as a complimentary tool in an analysis of the 13th century Byzantine Bessarion Reliquary" Microchemical Journal 125, pp. 75-84, doi: 10.1016/j.microc.2015.11.014, (2016) PDF or PDF of a Green OA accepted version
103. J. Striova, R. Fontana, M. Barucci, A. Felici, E. Marconi, E. Pampaloni, M. Raffaelli, C. Riminesi, "Optical devices provide unprecedented insights into the laser cleaning of calcium oxalate layers", Microchemical Journal, 124 331-337, doi: 10.1016/j.microc.2015.09.005, (2016)  -  PDF
102. J. Striova, B. Salvadori, R. Fontana, A. Sansonetti, M. Barucci, E. Pampaloni, E. Marconi, L. Pezzati, M.P. Colombini, "Optical and spectroscopic tools for evaluating Er:YAG laser removal of shellac varnish", Studies in Conservation, 60(S1) S91-S96, doi: 10.1179/0039363015Z.000000000213, (2015) -  PDF
101. P. Targowski, M. Pronobis-Gajdzis, A. Surmak, M. Iwanicka, E.A. Kaszewska, M. Sylwestrzak, "The application of macro-X-ray fluorescence and optical coherence tomography for examination of parchment manuscripts", Studies in Conservation, 60(S1) S167-S177, doi: 10.1179/0039363015Z.000000000221 (2015) PDF
100. S. Kogou, A. Lucian, S. Bellesia, L. Burgio, K. Bailey, Ch. Brooks, H. Liang, "A holistic multimodal approach to the non-invasive analysis of watercolour paintings", Applied Physics A, doi: DOI 10.1007/s00339-015-9425-4, (2015)  -  PDF
99. L.M. Dingemans, P.V. M., P. Liu, A.J.L. Adam, R.M. Groves, "Optical coherence tomography complemented by hyperspectral imaging for the study of protective wood coatings", Proc. SPIE, 9527, 952708, doi: 10.1117/12.2184716, (2015)  -  PDF
98. H. Liang, C.S. Cheung, J.M.O. Daniel, M. Torukawa, W.A. Clarkson, M. Spring, "High resolution Fourier domain Optical Coherence Tomography at 2 microns for painted objects", Proc. SPIE, 9527, 952705, doi: 10.1117/12.2185071, (2015)  -  PDF
97. P. Targowski, M. Iwanicka, B.J. Rouba, C. Frosinini, "OCT for Examination of Artwork", in: Optical Coherence Tomography. Technology and Applications, W. Drexler, G. Fujimoto (Eds.) (Springer, Cham Heidelberg New York Dordrecht London, 2015) pp. 2473-2495 -  link or Springer Link
96. M. Iwanicka, M. Sylwestrzak, P. Targowski, "Traces of former restorations of Raphael’s La Muta as seen by Optical Coherence Tomography", in: La Muta Indagini e restauro, M. Ciatti, M.R. Valazzi (Eds.) Raffaello, (Edifir, Firenze, 2015) pp. 117-119
95. C.S. Cheung, M. Spring, H. Liang, "Ultra-high resolution Fourier domain optical coherence tomography for old master paintings", Opt. Express, 23(8) 10145-10157, doi: 10.1364/OE.23.010145, (2015)  -  PDF
94. C.S. Cheung, J.M.O. Daniel, M. Tokurakawa, W.A. Clarkson, H. Liang, "High resolution Fourier domain optical coherence tomography in the 2 um wavelength range using a broadband supercontinuum source", Opt. Express, 23(3) 1992-2001, doi: 10.1364/oe.23.001992, (2015)  -  PDF
93. M.-L. Yang, J. I. Katz, J. Barton, W.-L. Lai, Jau-Ho Jean, "Using Optical Coherence Tomography to Examine Additives in Chinese Song Jun Glaze", Archaeometry, 57(5) 837-855 (2015) doi: 10.1111/arcm.12125 (2014)  -  PDF
92. H. Liang, L. Burgio, K. Bailey, A. Lucian, C. Dilley, S. Bellesia, C. Cheung, C. Brooks, "Culture and trade through the prism of technical art history: a study of Chinese export paintings", Studies in Conservation, 59 (S1), pp. S96-S99 (2014) -  PDF
91. E. Bemand, H. Liang, M. Bencsik, "Non-invasive methods for in-situ assessing and monitoring of the vulnerability of rock-art monuments". In: T. DARVILL and A.P. BATARDA FERNANDES, eds., Open-air rock-art conservation and management: state of the art and future perspectives. Abingdon: Routledge, 2014, ch. 18, pp. 244-258 -  link
90. C.S. Cheung, J.M.O. Daniel, M. Tokurakawa, W.A. Clarkson, H. Liang, "Optical coherence tomography in the 2-μm wavelength regime for paint and other high opacity materials", Optics Letters, 39(22) 6509-6512 (2014) -  PDF-OL or PDF-RG
89. M. Iwanicka, K.A. Cybulska, M. Sylwestrzak, "Nieinwazyjne badania in situ wybranych obrazów z kolekcji malarstwa i pasteli autorstwa Meli Muter za pomocą tomografii optycznej OCT", Acta Universitatis Nicolai Copernici - Zabytkoznawstwo i Konserwatorstwo XLIII 317-332 (2012) -  PDF
88. И.П. Гуров, Е.В. Жукова, А.В. Левшина "ПРИМЕНЕНИЕ МЕТОДА ОПТИЧЕСКОЙ КОГЕРЕНТНОЙ ТОМОГРАФИИ ДЛЯ ИЗУЧЕНИЯ ПРЕДМЕТОВ ИСКУССТВА, ВЫПОЛНЕННЫХ В ТЕХНИКЕ ИНТАРСИИ ", Научно-технический вестник информационных технологий, механики и оптики, No 3 (79) 55-59 (2012)  -  PDF
87. E.A. Kaszewska, M. Sylwestrzak, J. Marczak, W. Skrzeczanowski, M. Iwanicka, E. Szmit-Naud, D. Anglos, P. Targowski, "Depth-Resolved Multilayer Pigment Identification in Paintings: Combined Use of Laser-Induced Breakdown Spectroscopy (LIBS) and Optical Coherence Tomography (OCT)", Applied Spectroscopy 67(8) DOI: 10.1366/12-06703, 960-972 (2013) -  PDF
86. New techniques for the non-invasive investigation of the surface and subsurface structure of heritage objects: & Training on application of Optical Coherence Tomography (OCT) to structural analysis - Book of Abstracts, 25-28 June 2013,Toruń, Poland, M. Spring, P. Targowski Eds. (N. Copernicus University Press, Torun, 2013)
85. H. Liang, M. Sax, D. Saunders, "Microstructure of labotatory replicates of acient Egyptian faience: a new investigation with optical coherence tomography", in: Lasers in the Conservation of Artworks IX (Proceedings of LACONA IX conference), London, UK, September 7 - 10, 2011, D. Saunders, M. Strlič, C. Korenberg, N. Luxford, K. Birkhölzer Eds. (Archetype Publications Ltd, London 2013), 84-88
84. P. Targowski, J. Marczak, E.A. Kwiatkowska, M. Sylwestrzak, A. Sarzyński, "Optical coherence tomography for high-resolution real-time varnish ablation monitoring", in: Lasers in the Conservation of Artworks IX (Proceedings of LACONA IX conference), London, UK, September 7 - 10, 2011, D. Saunders, M. Strlič, C. Korenberg, N. Luxford, K. Birkhölzer Eds. (Archetype Publications Ltd, London 2013), 26-31
83. M. Iwanicka, P. Targowski, E.A. Kwiatkowska, M. Sylwestrzak, "Application of optical coherence tomography for monitoring some conservation treatments", in: Lasers in the Conservation of Artworks IX (Proceedings of LACONA IX conference), London, UK, September 7 - 10, 2011, D. Saunders, M. Strlič, C. Korenberg, N. Luxford, K. Birkhölzer Eds. (Archetype Publications Ltd, London 2013), 19-25
82. P. Targowski, M. Iwanicka, M. Sylwestrzak, E.A. Kaszewska, C. Frosinini, "OCT structural examination of Madonna dei Fusi by Leonardo da Vinci", Proc. SPIE 8790 87900N, DOI: 10.1117/12.2021607(2013) -  PDF
81. Chi S. Cheung, H. Liang, "Ultra-high resolution Fourier domain optical coherence tomography for resolving thin layers in painted works of art",  Proc. SPIE 8790 87900M, DOI: 10.1117/12.2020765(2013) -  link
80. Chi S. Cheung, M. Tokurakawa, J.M. Daniel, W.A. Clarkson, H. Liang, "Long wavelength optical coherence tomography for imaging of painted objects",  Proc. SPIE 8790 87900J, DOI: 10.1117/12.2021700(2013) -  PDF
79. E. Bemand and H. Liang, "Optical Coherence Tomography for vulnerability assessment of sandstone",  Applied Optics 52 3387–3393 (2013) -  PDF
78. H. Liang, R. Lange, B. Peric, M. Spring, "Optimum spectral window for imaging of art with optical coherence tomography",  Applied Physics B 111(4),  DOI: 10.1007/s00340-013-5378-5, 589-602 (2013) -  PDF -  also available from Nottingham Trent University repository
77. H. Liang, M. Sax, D. Saunders, M. Tite, "Optical Coherence Tomography for the non-invasive investigation of the microstructure of ancient Egyptian faience",  Journal of Archaeological Science 39 DOI: 10.1016/j.jas.2012.06.007, 3683-3690 (2012) -  PDF - also available from Nottingham Trent University repository
76. M.-L. Yang, A.M. Winkler, J. Klein, J.K. Barton, "Using optical coherence tomography to characterize thick-glaze structure: Chinese Souther Song Guan glaze case study", Studies in Conservation 57(2) 67-75 (2012)
75. H. Liang, "Contributions of astronomy to the study of art conservation and archaeology". In: From Antikythera to the Square Kilometre Array: Lessons from the Ancients, Kerastari, Greece, 12-15 June (2012) -  PDF
74. M.-L. Yang, A.M. Winkler, J. Klein, A. Wall, J.K. Barton, "Using Optical Coherence Tomography to Characterize the Crack Morphology of Ceramic Glaze and Jade", in: Selected Topics in Optical Coherence Tomography, Gangjun Liu (Ed.) ISBN: 978-953-51-0034-8 (2012) -  PDF
73. P. Targowski, M. Iwanicka, "Optical Coherence Tomography: its role in the non-invasive structural examination and conservation of cultural heritage objects—a review", Applied Physics A 106(2), Special Issue on "Optical Technologies in Art and Archaeology" DOI: 10.1007/s00339-011-6687-3, 265-277 (2012)  -  PDF
72. S. Lawman, H. Liang, "High precision dynamic multi-interface profilometry with optical coherence tomography", Applied Optics 50 (32) 6039–6048 (2011) -  PDF  -  also available from Nottingham Trent University repository
71. R. Lange, H. Liang, H. Howard, J. Spooner, "Optical coherence tomography and spectral imaging of a wall painting", in SPIE Newsroom, DOI: 10.1117/2.1201107.003778, (2011) -  PDF
70. M. Elias, N. Mas, P. Cotte, "Review of several optical non-destructive analyses of an easel painting. Complementarity and crosschecking of the results," Journal of Cultural Heritage 12(4) DOI: 10.1016/j.culher.2011.05.006, 335-345 (2011) -  PDF
69. E. Bemand; M. Bencsik, H. Liang, "OCT and NMR for non-invasive in-situ monitoring of the vulnerability of rock art monuments", Proc. SPIE 8084, DOI: 10.1117/12.890084, 80840H (2011)
68. M. Iwanicka, E.A. Kwiatkowska, M. Sylwestrzak, P. Targowski, "Application of optical coherence tomography (OCT) for real time monitoring of consolidation of the paint layer in Hinterglasmalerei objects", Proc. SPIE 8084, DOI: 10.1117/12.890398, 80840G (2011) -  PDF
67. H. Liang, R. Lange, H. Howard, J. Spooner, "Non-invasive Investigations of a Wall Painting using Optical Coherence Tomography and Hyperspectral Imaging", Proc. SPIE 8084, DOI: 10.1117/12.890088, 80840F, (2011)  -  PDF
66. H. Liang, "Advanced Optical Imaging Methods for Investigating Manuscripts", in: The Technological Study of Books and Manuscripts as Artefacts: Research questions and analytical solutions, S. Neate, D. Howell, R. Ovenden, A.M. Pollard eds, (BAR International Series 2209, Oxford 2011), p. 55-66 -  PDF
65. P. Targowski, E.A. Kwiatkowska, M. Sylwestrzak, J. Marczak, W. Skrzeczanowski, R. Ostrowski, E. Szmit-Naud, M. Iwanicka, Absolute LIBS stratigraphy with Optical Coherence Tomography", in: Proceedings of the international conference LACONA VIII: - Lasers in the Conservation of Artworks, Sibiu,  Romania, September 17 - 21, 2007, R. Radvan et al. eds, (CRC Press,Taylor & Francis Group, London 2011), 143-147
64. M. Iwanicka, L. Tymińska-Widmer, B.J. Rouba, E.A Kwiatkowska, M. Sylwestrzak, P. Targowski, "Through-glass structural examination of Hinterglasmalerei by Optical Coherence Tomography", in: Proceedings of the international conference LACONA VIII: - Lasers in the Conservation of Artworks, Sibiu,  Romania, September 17 - 21, 2007, R. Radvan et al. eds, (CRC Press,Taylor & Francis Group, London 2011), 209-214
63. M. Hughes, "Optical Coherence Tomography for Art. Conservation and Archaeology: Methods and Applications", PhD thesis, University of Kent in Canterbury, UK (2010) -  PDF
62. S. Chang, Y. Mao, G. Chang, C. Flueraru, "Jade detection and analysis based on optical coherence tomography images", Optical engineering 49(6)063602-1 - 063602-8 (2010), doi:10.1117/1.3449112 PDF
61. P. Targowski, P. Karaszkiewicz, B.J. Rouba, D. Markowski, L. Tymińska-Widmer, M. Iwanicka, E. Kwiatkowska, M. Sylwestrzak, "Optical Coherence Tomography for Non-invasive Investigation of Structure and Properties of Historic Glass", The Art of Collaboration: Stained-Glass Conservation in the Twenty-First Century, M.B Shepard, L. Pilosi, and S. Strobl Editors, Corpus Vitrearum United States of America, Occasional papers II, 127-134 (2010)
60. M. Sylwestrzak, M. Szkulmowski, D. Szlag, P. Targowski, "Real-time imaging for Spectral Optical Coherence Tomography with massively parallel data processing", Photonics Letters of Poland  2(3), 137-139 (2010) DOI: 10.4302/plp.2010.3.14 -  PDF
59. M. Elias, C. Magnain, and J.M. Frigerio, "Contribution of surface state characterization to studies of works of art", Applied Optics 49, 2151-2160 (2010) -  Abstract
58. M. Hughes, M. Spring, A. Podoleanu, "Speckle noise reduction in optical coherence tomography of paint layers", Applied Optics 49, 99-107 (2010) -  Abstract
57. P. Targowski, M. Iwanicka, L. Tymińska-Widmer, M. Sylwestrzak, E.A. Kwiatkowska, "Structural Examination of Easel Paintings with Optical Coherence Tomography", Accounts of Chemical Research 43(6) 826-836 (2010), DOI: 10.1021/ar900195d -  PDF
56. P. Targowski, B.J. Rouba, P. Karaszkiewicz, M. Iwanicka, L. Tymińska-Widmer, T. Łękawa-Wysłouch, E.A. Kwiatkowska, M. Sylwestrzak, "Optyczna Koherentna Tomografia OCT – nowe narzędzie do działań konserwatorskich i inwentaryzacyjnych /  Optical Coherence Tomography OCT – a novel tool for art conservation and cataloguing", - with nonauthorised translation by the Editor, Wiadomości konserwatorskie 26 94-107 (2009) -  PDF
55. G. Latour, J. P. Echard, B. Soulier, I. Emond, S. Vaiedelich, M. Elias, "Structural and optical properties of wood and wood finishes studied using optical coherence tomography: application to an 18th century Italian violin", Applied Optics 48, 6485-6491 (2009) -  Abstract
54. J. Kunicki-Goldfinger, P. Targowski, M. Góra, P. Karaszkiewicz and P. Dzierżanowski, "Characterization of Glass Surface Morphology by Optical Coherence Tomography," Studies in Conservation 54, 117-128 (2009) -  PDF 
53. G. Latour, G. Georges, L. Siozade, C. Deumié, and J.-P. Echard, "Study of varnish layers with optical coherence tomography in both visible and infrared domains," Proc. SPIE 7391, 73910J (2009) -  PDF 
52. M.M. Amaral, M.P. Raele, A.Z. de Freitas, G.S. Zahn, R.E. Samad, N.D. Vieira, Jr., and L.V. G. Tarelho, "Laser induced breakdown spectroscopy (LIBS) applied to stratigrafic elemental analysis and optical coherence tomography (OCT) to damage determination of cultural heritage Brazilian coins," Proc. SPIE 7391, 73910I (2009) -  Abstract 
51. S. Lawman, H. Liang, "Fourier domain optical coherence tomography for high-precision profilometry," Proc. SPIE 7391, 73910H (2009) -  Abstract 
50. P. Targowski, R. Ostrowski, J. Marczak, M. Sylwestrzak, E.A. Kwiatkowska, "Picosecond laser ablation system with process control by Optical Coherence Tomography",  Proc. SPIE 7391, 73910G (2009) -  Author-prepared PDF 
49. E.A. Kwiatkowska, J. Marczak, R. Ostrowski, W. Skrzeczanowski, M. Sylwestrzak, M. Iwanicka, P. Targowski, "Absolute LIBS stratigraphy with Optical Coherence Tomography",  Proc. SPIE 7391, 73910F (2009) -  Author-prepared PDF 
48. M. Sylwestrzak, E.A. Kwiatkowska, P. Karaszkiewicz, M. Iwanicka, P. Targowski, "Application of graphically oriented programming to imaging of structure deterioration of historic glass by Optical Coherence Tomography",  Proc. SPIE 7391, 73910A (2009) -  Author-prepared PDF 
47. M.-L. Yang, A.M. Winkler, J.K. Barton, P.B. Vandiver, "Study of optical coherence tomography applied to Chinese glazes", in: 2009 International Symposium on Ancient Ceramics - Its Scientific and Technological Insights (ISAC′09), Luo Hongjie and Zheng Xinmiao, eds. (Shanghai Kexue Jishu Wenxian Chubanshe, Shanghai, 2009), pp. 469-475
46. P. Targowski, M. Góra, J. Marczak, A. Rycyk, and B.J. Rouba  "Optical coherence tomography holds promise for conserving art", SPIE Newsroom DOI: 10.1117/2.1200904.1589, (2009) -  PDF -  Suplementary file
45. M. Iwanicka, "Przykłady zastosowania tomografii optycznej (OCT) do badań materiałowych i analizy struktury dzieła sztuki," Acta Universitatis Nicolai Copernici - Zabytkoznawstwo i Konserwatorstwo XXXVI, 386 Toruń 2008, pp. 177-190 -  PDF [in Polish]
44. H. Liang, K. Keita, B. Peric, T. Vajzovic, "Pigment identification with optical coherence tomography and multispectral imaging", Proc. OSAV 2008, The 2nd Int. Topical Meeting on Optical Sensing and Artificial Vision, St. Petersburg, Russia, 12-15 May 2008, I. Gurov ed., p. 33-42  -  PDF
43. M.-L. Yang, Amy M. Winkler, Jennifer K. Barton and Pamela B. Vandiver, "Using optical coherence tomography to examine the subsurface morphology of chinese glazes", Archaeometry 51 808-821 (2009), Published Online 20 Nov 2008, DOI:10.1111/j.1475-4754.2008.00451.x -  abstract  -  PDF
42. M. Hughes, D. A. Jackson, and Adrian G. Podoleanu, "A swept source OCT at 1300 nm with angular compounding for art and archaeological conservation", Proc. SPIE 7139, 713917 (2008)
41. E. Kwiatkowska, M.Sylwestrzak, B.J. Rouba, L. Tymińska-Widmer, M. Iwanicka, and P. Targowski, "Optical Coherence Tomography for non-destructive investigations of structure of easel paintings", Proc. SPIE 7139, 713916 (2008)  -  Author-prepared PDF
40. H. Liang, B. Peric, M. Hughes, A.G. Podoleanu, M. Spring, and S. Roehrs, "Optical Coherence Tomography in archaeological and conservation science - a new emerging field", Proc. SPIE 7139, 713915 (2008)  -  PDF
39. M. Góra, P. Targowski, A. Kowalczyk, J. Marczak, A. Rycyk, "Fast spectral optical coherence tomography for monitoring of varnish ablation process", in Proceedings of the international conference LACONA VII: - Lasers in the Conservation of Artworks,  Madrid, Spain, September 17 - 21, 2007, M. Castillejo et al. eds, (CRC Press,Taylor & Francis Group, London 2008), p. 23-27
38. P. Targowski, M. Góra, T. Bajraszewski, M. Szkulmowski, M. Wojtkowski, A. Kowalczyk B. Rouba, L. Tymińska-Widmer, M. Iwanicka, "Optical coherence tomography for structural imaging of artworks", in Proceedings of the international conference LACONA VII: - Lasers in the Conservation of Artworks,  Madrid, Spain, September 17 - 21, 2007, M. Castillejo et al. eds, (CRC Press, Taylor & Francis Group, London 2008), p. 61-65
37. M. Spring, H. Liang, B. Peric, D. Saunders, A. Podoleanu, "Optical Coherence Tomography - a tool for high resolution non-invasive 3D-imaging of the subsurface structure of paintings", in International Council of Museums (ICOM) Committee for Conservation Triennial Conference, Preprints Vol. II, New Delhi, 22-26 September 2008, (Allied Publishers, New Delhi, 2008), pp. 916-923  -  PDF
36. L. Tyminska-Widmer, P. Targowski, M. Góra, M. Iwanicka, T. Lekawa-Wyslouch, B. Rouba, "Optical Coherence Tomography - a Novel Tool for the Examination of Oil Paintings", in Conservation Science 2007, Milan, 10-11 May 2007, Joyce Townsend et al., eds. (Archtype publishing, London, 2008), p. 175-182
35. H. Liang, B. Peric, M. Spring, D. Saunders, M. Hughes, A. Gh. Podoleanu, "Non-invasive imaging of subsurface paint layers with optical coherence tomography", in Conservation Science 2007, Milan, 10-11 May 2007, Joyce Townsend et al., eds. (Archtype publishing, London, 2008), pp. 171-176  -  PDF
34. B. Peric, S. Martin-Simpson, M. Spring, H. Liang, "Spectral Transparency of Historic Artists Pigments", in Conservation Science 2007, Milan, 10-11 May 2007, Joyce Townsend et al., eds. (Archtype Publishing, London, 2008), pp. 185-186) -  PDF
33. B. Rouba, P. Karaszkiewicz, L. Tymińska-Widmer, M. Iwanicka, M. Góra, E. Kwiatkowska, P. Targowski, "Optical Coherence Tomography for Non-Destructive Investigations of Structure of Objects of Art", Proceedings of ART2008, The e-Journal of Nondestructive Testing, vol.13 No.9 (September 2008) -  PDF
32. Optical Coherence Tomography for Examination of Art, Book of Abstracts, Torun, Poland, 3-5 July 2008, P. Targowski ed. (University Press NCU, Torun, 2008) -  link
31. P. Targowski, B. Rouba, M. Góra, L. Tymińska-Widmer, J. Marczak, and A. Kowalczyk, "Optical Coherence Tomography in Art Diagnostics and Restoration", Applied Physics A92, 1-9 (2008) -  [ PDF: author-created version] or an original file
30. K.D. Hinsch, G. Guelker, H. Helmers, "Checkup for aging artwork - Optical tools to monitor mechanical behaviour", Optics and Lasers in Engineering 45, 578-588 (2007).
29. R. Fontana, M. Bellini, C. Corsi, M. Mastroianni, M. Materazzi, L. Pezzati, and A. Tortora, "Optical coherence diagnostics for painting conservation", Proc.SPIE 6618, pp. 661808-1..661808-7 (2007).
28. I. Gurov, A. Karpets, N. Margariants, E. Vorobeva, "Full-field high-speed optical coherence tomography system for evaluating multilayer and random tissues", Proc.SPIE 6618, pp. 661807-1.. 661807-8 (2007).
27. G. Latour, J. Moreau, M. Elias, and J.-M. Frigerio, "Optical Coherence Tomography: non-destructive imaging and spectral information of pigments", Proc.SPIE 6618, pp. 661806-1..661806-9 (2007).
26. H. Liang, B. Peric, M. Hughes, A. Podoleanu, M. Spring, and D. Saunders, "Optical coherence tomography for art conservation and archaeology", Proc.SPIE 6618, pp. 661805-1..661805-12 (2007)  -  link
25. P. Targowski, J. Marczak, M. Góra, A. Rycyk, and A. Kowalczyk "Optical Coherence Tomography for Varnish Ablation Monitoring", Proc. SPIE  6618 , pp. 661803-1..661803-7 (2007)
24. D. Stifter “ Beyond biomedicine: a review of alternative applications and developments for optical coherence tomography“, Appl. Phys. B  88, pp. 337-357 (2007)  DOI: 10.1007/s00340-007-2743-2
23. M. Góra, A. Rycyk, J. Marczak, P. Targowski, and A. Kowalczyk, "From Medical to Art Diagnostics: OCT - a novel tool for varnish ablation control", Proc. SPIE 6429, pp. 64292V (2007).
22. D. C. Adler, J. Stenger, I. Gorczynska, H. Lie, T. Hensick, R. Spronk, S. Wolohojian, N. Khandekar, J. Y. Jiang, and S. Barry, "Comparison of three-dimensional optical coherence tomography and high resolution photography for art conservation studies",  Opt. Express 15, 15972-15986 (2007) -  link
21. P. Targowski, T. Bajraszewski, I. Gorczyńska, M. Góra, A. Szkulmowska, M. Szkulmowski, M. Wojtkowski, J.J. Kałużny, B.J. Kałużny, and A. Kowalczyk, "Spectral Optical Coherence Tomography for Nondestructive Examinations", Optica Applicata 36, pp. 609-619 (2006)  PDF
20. M. Góra, P. Targowski, A. Rycyk, J. Marczak "Varnish ablation control by Optical Coherence Tomography",  Laser Chemistry, vol. 2006, doi:10.1155/2006/10647, 7 pages, (2006) PDF
19. M. Góra, M. Pircher, E. Götzinger, T. Bajraszewski, M. Strlic, J. Kolar, Ch.K. Hitzenberger, P. Targowski "Optical Coherence Tomography for Examination of Parchment Degradation",  Laser Chemistry, vol.2006, doi:10.1155/2006/68679, 6 pages, (2006) PDF
18. P. Targowski, M. Góra, M. Wojtkowski, "Optical Coherence Tomography for Artwork Diagnostics",  Laser Chemistry, vol.2006, doi:10.1155/2006/35373, 11 pages, (2006)  PDF  Suplementary file
17. P. Targowski, M. Góra, T. Bajraszewski, M. Szkulmowski, B. Rouba, T. Łękawa-Wysłouch, L. Tymińska-Widmer "Optical Coherence Tomography for Tracking Canvas Deformation",  Laser Chemistry, vol.2006, doi:10.1155/2006/93658, 8 pages, (2006)  PDF  Suplementary file
16. M. Szkulmowski, M. Góra, M. Targowska, B. Rouba, D. Stifter, E. Breuer, P. Targowski, "Zastosowanie tomografii optycznej do badania stratygrafii obrazów olejnych", in Techniki analityczne w konserwacji zabytków, Gdańsk, June 8-9 2006, G. Sliwiński ed.(Wydawnictwo Instytutu Maszyn Przepływowych, Gdańsk 2007), pp. 79-83 [in Polish]
15. P. Targowski, M. Góra, B. Rouba, M. Targowska "Tomografia optyczna", in Techniki analityczne w konserwacji zabytków, Gdańsk, June 8-9 2006, G. Sliwiński ed. (Wydawnictwo Instytutu Maszyn Przepływowych, Gdańsk 2007), pp.3-7 [in Polish]
14. T. Arecchi, M. Bellini, C. Corsi, R. Fontana, M. Materazzi, L. Pezzati, and A. Tortora, "A new tool for painting diagnostics: Optical coherence tomography", Opt.Spectrosc. 101, 23-26 (2006)
13. A. Podoleanu, H. Liang, M. Cid, R. Cucu, G. Dobre, J. Pedro and D. Saunders, "In-fiber optical coherence tomograph for examination of paintings", in Fiber optic sensor technology and applications IV, 600401, 9 November 2005 - link
12. T. Bajraszewski, I. Gorczyńska, B. Rouba, and P. Targowski, "Spectral domain Optical Coherence Tomography as the Profilometric Tool for Examination of the Environmental Influence on Paintings on Canvas", in Lasers in the Conservation of Artworks, LACONA VI Proceedings, Vienna, Austria, Sept. 21 - 25, 2005, J. Nimmrichter, W. Kautek, and M. Schreiner, eds. (Springer Verlag, Berlin-Heidelberg-New York, 2007), pp. 507-512.  SpringerLink
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