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Bibliography 

Symmetry, Geometry, Patterns, Art

  • Abas, S.J., Salman, A.S., Moustafa, A. and Atiyah, M., 1995. Symmetries of Islamic geometrical patterns (Vol. 3). Singapore: World Scientific.
  • Abas, S. J. Islamic geometrical patterns for the teaching of mathematics of symmetry Symmetry: Culture and Science, Vol. 12, Nos. 1-2, 53-65, 2001
  • Abas, S. J. and Salman, A. S. Geometric and group-theoretic methods for computer graphics studies of Islamic symmetric patterns Computer Graphics Forum 11, 1, 43-53. 1992
  • Abbott, A. and Rutherford, A. (2005) Artists on science: scientists on art. Nature 434, 293. Editors of a special supplement pp. 293-323.
  • Aboufadil, Youssef, Abdelmalek Thalal, and My Ahmed El Idrissi Raghni. "Symmetry groups of Moroccan geometric woodwork patterns." Journal of Applied Crystallography 46.6 (2013): 1834-1841.
  • Aljamali, A. M. and Banissi, E. Grid Method Classification of Islamic Geometric Patterns WSCG SHORT PAPERS proceedings WSCG, February 3-7, Plzen, Czech Republic. Copyright Union Agency Science Press 2003
  • Amiraslan I. Azerbaijani Tesselations. (2006) From Tessellations to Nano-Art (2008) http://tessellation.info/en/info/artists/7/Imameddin_Amiraslan/
  • Arnheim, R., 1988. Symmetry and the organization of form: A review article. Leonardo, pp.273-276.
  • Atiyah, M. and Sutcliffe, P. (2003) Polyhedra in physics, chemistry and geometry. Milan J. Math. 71, 33-58.

  • Bagheri M., Hogendijk J., Kruk R. Geometric Patterns in Islamic Art, Lorentz Center, workshop, Leiden 2006.
  • Barlow, W. (1897) A mechanical cause of homogeneity of structure and symmetry geometrically investigated; with special application to crystals and to chemical combination. Proc. Phys. Soc. London 16 54-58
  • Berczi S., 1989. Symmetry and technology in ornamental art of old Hungarians and Avar-Onogurians from the archaeological finds of the Carpathian basin, seventh to tenth century AD. Computers & Mathematics with Applications, 17(4), pp.715-730.
  • Bernal, J.D. (1937) Art and the scientist, in Circle - International Survey of Constructive Art. Eds L.Martin, B.Nicholson and N.Gabo. Faber & Faber, London; reprinted 1971. pp.119-128.
  • Bernal, J.D. (1967) Symmetry and the genesis of form. J. Mol. Biol. 24, 379-390.
  • Biederman, C.J. (1948) Art as the evolution of visual knowledge. Redwing, Minnesota, USA. Pp.571-595.
  • Bier, Carol. Textile Arts of Safavid and Qajar Iran (16th-19th Cent) The Textile Museum, Washington, 97-106. 1987
  • Bier, Carol. "Geometry in Islamic Art." In: Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures, pp. 1-21, (2015).
  • Black, S. (2005) Domesticating the crystal: Sir Lawrence Bragg and the aesthetics of 'X-ray analysis. Configurations 13, 257-282.
  • Blundell, T.L. (1981) Symmetry, stability and motion in molecular biology and in the visual arts. Leonardo 14, 311-313.
  • Bool, F. H., Kist, J. R., Locher, J. L. and Wierda, F. M.C. Escher: His Life and Complete Graphic Work. Harry N. Abrams, Inc., New York, 1982
  • Bonner J., Three Traditions of Self-Similarity in Fourteenth and Fifteenth Century Islamic Geometric Ornament, ISAMA/Bridges 2003 Conference Proceedings, Granada 2003.
  • Bourgoin J. Arabic Geometrical Pattern and Design, 1973 (original ed.Les elements de l'Art Arabe, Firmin-Didot, Paris, 1879).
  • Broug, Eric. Islamic Geometric Patterns. New York 2008
  • Broug, Eric. Islamic Geometric Design, London: Thames & Hudson, 2013
  • Brown A. in J.D. Bernal: The Sage of Science, 2005.
  • Burke, J.G. (1966) Origins of the science of crystals. University of California Press, Berkeley, USA.

  • Campbell P.J. The geometry of decoration on prehistoric Pueblo pottery from Starkweather ruin. Computers & Mathematics with Applications, 17(4-6), pp.731-749, 1989.
  • Castera J.M. in Arabesques, ACR editions, Paris 1999.
  • Castera, J. M. Arabesque: Decorative Arts in Morocco; Arc Edition pp. 276-277. 1999
  • Castera J.M. Play with infinity, ISAMA/Bridges 2003 Conference Proceedings, Granada 2003.
  • Castera J.M., Makovicky E., Matsumoto T., Benatia J. Math Cryst Satellite Meeting The Enchanting Crystallography of Moroccan ornaments, ECM 2007. > pdf
  • Chorbachi W.K. In the Tower of Babel: beyond symmetry in Islamic design. Computers & Mathematics with applications, 17(4), pp.751-789, 1989.
  • Coxeter H.M.S. Introduction to geometry, Wiley, New York, 1969.
  • Coxeter H.M.S., Emmer M., Penrose R., and Teuber M.L.M.C. Escher: Art and Science, North Holland 1986.
  • Critchlow, K Islamic Patterns. Schocken Books, New York. 1976
  • Critchlow, K Islamic Patterns: An Analytical and Cosmological Approach. Thames and Hudson, 1976
  • Crowe D.W. The geometry of African art. Part 1. Bakuba art, Journal of Geometry, 1971.
  • Crowe D.W. and Washburn D.K. Geometrical, Perceptual, and Cultural Perspectives on Figure/Ground Differences in Bakuba Pattern. 2006.

  • Dewdney, A.K. The Tinkertoy Computer and Other Machinations W.H. Freeman, pages 222-230. 1993
  • Dezarnaud Dandine C., Sevin A. Histoires de Symetries, 2007.
  • Dooryhee E. Crystallography in Art & Archaeology. Acta Cryst. (2007). A63, s3. http://journals.iucr.org/a/issues/2007/a1/00/a37525/a37525.pdf

  • Ecochar M. Filiation des monuments grecs, bysantins et islamiques, une question de geometrie, P. Geuthner, Paris 1978.
  • El-Said, I. Islamic Art and Architecture: The System of Geometric Design. Grant Publishing Limited, UK. 1993
  • El-Said, I. and Parman, A. Geometrical Concepts in Islamic Art. World of Islam Festival. Publ. Co. London, 1976
  • Erbak, M., Anatolian Motifs, from Çatalhöyük to the present. GESAV, Traditional Turkish Handicrafts Research Foundation, without date
  • Escher M.C. Lecture at the IUCr Meeting, Cambridge, August of 1960
  • Escher, M.C. (1960) Antisymmetrical arrangements in the plane, and regular 3-dimensional bodies as sources of inspiration to an artist. Acta Cryst. 13, 1083-1083

  • Farmer, D.W. Groups and Symmetry. A Guide to Discovering Mathematics. American Mathematical Society, 1996 (in particular Chapter 8, Symmetry in the Real World)
  • Forgan, S. (1998) Festivals of science and the two cultures: science, design and display in the Festival of Britain, 1951. Brit. J. Hist. Sci. 31, 217-240

  • Glasser L. Teaching Symmetry: the use of decorations. J. Chem. Educ., 44 (9), 502-511. 1967.
  • Gombrich, E.H. The Sense of Order: A Study in the Psychology of Decorative Art Cornell University Press, Ithaca. 1979
  • Grandünbaum, B. and Shephard, G. C. Tilings and Patterns. W. H. Freeman. 1987
  • Grandünbaum, B. and Shephard, G. C. Interlace patterns in Islamic and Moorish art. Leonardo, 25, 331-339, 1992
  • Grandübaum B. and Shephard, G.C. Patterns in Islamic and Moorish art Leonardo , 25:331-339, 1992
  • Grandünbaum, B., Grandünbaum, Z., Shephard G.C. Symmetry in Moorish and Other Ornaments. Computers and Mathematics with Applications 12B, Nos 3/4, p. 642. 1986.
  • Gunn, C. Discrete groups and visualization of three-dimensional manifolds. Proceed of SIGGRAPH'93. ACM, N. Y., 255-262. 1993

  • Haake, A. (1989) The role of symmetry in Javanese batik patterns. Computers Maths.Applic. 17, 815-826.
  • Haake, A. (2002) XX-Tex - textiles and crystallography. In Symmetry2000, Proceedings of a symposium held at the Wenner-Gren Centre, Stockholm. Hargittai, I. and Laurent, T.C. eds. Portland Press, London. pp. 223-230
  • Hankin, E. H. The Drawing of Geometric Patterns Saracenic Art, volume 15 of Memoirs of the Archaeological Society of India. Government of India 1925
  • Hankin, E. H. Examples of methods of drawing geometrical arabesque patterns. The Mathematical Gazette, Vol 12, No. 176, pages 370-373, 1925
  • Hankin, E. H. Some difficult Saracenic designs II The Mathematical Gazette, pages 165-168, 1934
  • Hankin, E. H. Some difficult Saracenic designs III The Mathematical Gazette, pages 318-319, 1936
  • Hankin, E.H., Some Difficult Saracenic Designs Pattern Containing Fifteen Rayed Stars The Mathematical Gazette, Vol. 18, 165-168, 1934, and 20, 318-319 1936
  • Hargittai, I. ed. Symmetry: Unifying Human Understanding. Pergamon, New York 1986 and 1989.
  • Hargittai I., Hargittai M. Symmetry: a Unifying Concept, 1996
  • Hargittai M. Symmetry, Crystallography, and Art. International School of Molecular and Structural Archaeology, 2006.
  • Hargittai M., Hargittai I. Symmetry through the Eyes of a Chemist, Springer, 3rd Edition, 2009
  • Hargittai M., Hargittai I. Visual Symmetry, World Scientific, 2009
  • Hargittai I. and Laurent, T.C. (2002) Symmetry2000: Proceedings of a symposium held at the Wenner-Gren Centre, Stockholm. Portland Press, London.
  • Hofstadter, D. Metamagical Themas: Questing for the Essence of Mind and Pattern. Bantam Books. 1986

  • Irving, W. The Alhambra. Macmillan and Co. 1931

  • Jablan S.V. Theory of Symmetry and Ornament, Belgrade, 1996.
  • Jackson, L. From Atoms to Patterns. Crystal structure designs from the 1951 Festival of Britain. Richard Dennis, 2008
  • Joyce, D. E. The 17 plane symmetry groups Clark university, Worcester, MA 01610, 1997
  • Justema, W. Pattern: A Historical Panorama. New York Graphic Society, Boston. 1976

  • Kaplan, C. Computer Graphics and Geometric Ornamental Design. Ph.D. University of Washington, Seattle, pp. 67-90, 2002
  • Kaplan, C. S. Computer generated islamic star patterns Reza Sarhangi, editor, Bridges 2000
  • Kaplan, C. S. and Hart, G. W. Symmetrohedra: Polyhedra from symmetric placement of regular polygons Bridge 2001 Proceedings, R. Sarhangi, Ed. 2001
  • Kaplan, C. S. and Salesin, D. H. Escherization In Proceedings of the 27th Annual Conference on Computer Graphics and Interactive Techniques (SIGGRAPH 2000). ACM, New York, 499-510. 2000
  • Kaplan, C. S. and Salesin, D. H. Islamic star patterns in absolute geometry. ACM Trans. Graph., 23(2), 97-119, 2004
  • Kemp M. Visualizations: the nature book of Art and Science, Oxford University Press, 2000.
  • Kemp M. Plastic Visions in Art and Science, Acta Cryst. (2005). A61, C43. http://journals.iucr.org/a/issues/2005/a1/00/a32082/a32082.pdf
  • Lander, E.S. Symmetric design: an algebraic approach. Cambridge University Press, 1983.
  • Lee, A.J. Islamic star patterns. Muqarnas, 4, 182-197 1987.
  • Legino, Rafeah, and David Forrest. "Symmetrical Motif Design in Malaysian Batik Sarong Patterns." In International Colloquium of Art and Design Education Research (i-CADER 2014), pp. 695-701. Springer Singapore, 2015.
  • Liu Y., R.T. Collins and Y.Tsin A Computational Model for Periodic Pattern Perception Based on Frieze and Wallpaper Groups IEEE Transactions on pattern analysis and machine intelligence, Vol. 26, NO. 3, 2004
  • Lu P.J., Steinhardt P.J. Decagonal and quasi-crystalline tilings in medieval Islamic architecture. Science 315, 1106-1110, 2007.

  • MacGillavry C.H. Symmetry Aspects of M.C. Escher's Periodic Drawings. IUCr Utrecht 1965.
  • Makovicky E. 800 year-old pentagonal tiling from Maragha, Iran. In: 5-fold Symmetry. Ed. I. Hargittai 1992.
  • Makovicky E. and P. Fenoll Hach-Ali. Mirador de Lindaraja:Islamic ornamental patterns based on quasi-periodic octagonal lattices in Alhambra, Granada, and Alcazar, Sevilla, Spain. Boletin de la Sociedad Espanola de Mineralogia 19, 1-26, (1996)
  • Makovicky E., Fenoll Hach-Ali P. Symmetry, structural analysis and classification of 1-2D ornaments. Boletin Soc. Espanola de Mineralogia, 1997.
  • Makovicky E., F. Rull-Perez and P. Fenoll Hach-Ali Decagonal patterns in the Islamic ornamental art of Spain and Morocco. Bol.Soc. Esp. Min. 21, 107-127 (1998).
  • Makovicky E. Ornamental diamond patterns in aboriginal bark paintings from N.E. Arnhem Land, Australia. Records of the South Australian Museum, 36 (2003) 1-20
  • Makovicky E. Comment on Decagonal and quasi-crystalline tilings in Medieval Islamic architecture. Science, 318 (2007).
  • Makovicky, Emil. "Symmetries of Islamic ornaments and how to study them." Les Tracés De L'arabesque Géométrique (2014).
  • Makovicky, E. "Crystallographic symmetries of ornamental floors in the Baptisteries of San Giovanni in Pisa and Firenze." Rendiconti Lincei 26, no. 2 (2015): 235-250.
  • Makovicky, E. Symmetry: Through the Eyes of Old Masters. Walter de Gruyter GmbH & Co KG, 2016.
  • Mamedov K.S. Crystallographic patterns. Comp. Maths with Appl. 12, Issues 3–4, Part 2, 511–529, 1986.
  • McGill, T. (2007) Design under the microscope. Decorative Arts Soc.J. 31, 92-115.
  • Meyer E. Art in Crystallography in Art,: Acta Cryst. (2005). A61, C43-C44. http://journals.iucr.org/a/issues/2005/a1/00/a32082/a32082.pdf
  • Montesquieu Of the Pleasures of Symmetry from an Essay upon Taste, in subjects of Nature and of Art, 1728.

  • Necipoglu G. and Al-Asad M. The Topkapi Scroll Geometry and Ornament in Islamic Architecture, Getty Research Institute. 1995

  • Ostromoukhov, V. Mathematical tools for computer-generated ornamental patterns. Electronic Publishing, Artistic Imaging and Digital Typography, number 1375. Lecture Notes in Computer Science, pages 193-223. Springer-Verlag 1998
  • Ozdural, A. Mathematics and Arts: Connections between Theory and Practice in the Medieval Islamic World Historia Mathematica, 27, 171-201. 2000

  • Padwick, R. and Walker, T. Pattern: Its Structure and Geometry, Sunderland (UK): Ceolfrith Press, Sunderland Arts Centre. 1977.
  • Pawley, G S (1961) Coloured polyhedra. Acta Cryst. 14, 319-320
  • Pawley, G S (1962) Plane groups on polyhedra. Acta Cryst. 15, 49-53
  • Regensteinir, E. Geometric Design in Weaving. Schiffer Publi Ltd., West Chester, Pennsylvania. 1986

  • Saltzman, P. Quasi-Periodicity in Islamic Geometric Design. In Architecture and Mathematics from Antiquity to the Future (pp. 585-602). Springer International Publishing, 2015.
  • Schattschneider, D. The Plane Symmetry Groups, Their Recognition and Notation American Mathematical Monthly, 85, 439-450 1978
  • Schattschneider D.Visions of Symmetry, Note Books, Periodic Drawings and related Works of M.C. Escher, 1990.
  • Shubnikov A.V., Belov N.V. et al. Coloured Symmetry, MacMillan, 1964.
  • Shubnikov A.V, Kopstik V.A. Symmetry in Science and Art, Plenum Press, NY 1974.

  • Thomas, M.H. (1951) Festival Pattern Group. Design May-June 1951, 12-25.
  • Thomas, M.H. (1951) The Souvenir Book of Crystals Designs. COID/HMSO, London
  • Thompson, D'A.W.(1992) On Growth and Form. Abridged ed., edited by J.T.Bonner. Cambridge University Press, Cambridge.
  • Thurgood, G. (1971) On the artist and science. Leonardo 4, 117-124
  • Topper, D.R. & Holloway, J.H. (1985) Interrelationships of the arts, sciences and technology: a bibliographic update. Leonardo 18, 197-200. updated at www.leonardo.info/isast/spec.projects/artsciencebib.html
  • Toth N. The prehistoric roots of a human concept of symmetry. Symmetry: Culture and Science, 1: 257—281, 1990.

  • Washburn D.K. Perceptual Anthropology: the Cultural Salience of Symmetry. American Anthropologist, 101, 547-562, 1999.
  • Washburn, Dorothy Koster, and Donald Warren Crowe. Symmetries of culture: Theory and practice of plane pattern analysis. University of Washington Press, 1988.
  • Weyl H. Symmetry, Princeton Univ. Press 1952.
  • Wilson, Eva. Islamic Designs. British Museum Publications, London. 1988
  • Woods, H.J. The Geometrical Basis of Pattern Design, The Journal of the Textile Institute Transactions, 26, 197-210; 293-308; 341-357, 1935.

  • Zaslow, Bert, and Alfred Edward Dittert. Pattern mathematics and archaeology. No. 2. Arizona State University, 1977.
  • Zaslow, B. On the use of symmetry as an archaeological and anthropological tool. Symmetry: Culture and Science, 1, pp.49-56. 1990.

Crystallography, materials, analysis

  • Aitken M.J. (1974) Physics and Archaeology. Oxford University Press.
  • Aitken M.J. (1990) Science-based dating in archaeology. Longman, London.
  • Allen R. (ed.) (1989) Archaeological Chemistry (IV). American Chemical Society, Washington.
  • Artioli, G. (2007). Crystallographic texture analysis of archaeological metals: interpretation of manufacturing techniques. Applied Physics A, 89, 899-908.
  • Artioli, G. (2010). Scientific methods and cultural heritage: an introduction to the application of materials science to archaeometry and conservation science. Oxford University Press.
  • Artioli, G. (2013). Science for the cultural heritage: the contribution of X-ray diffraction. Rendiconti Lincei, 24, 55-62.
  • Artioli, G., Angelini, I. (2011). Mineralogy and archaeometry: fatal attraction. European Journal of Mineralogy, 23(6), 849-855.
  • Artioli G., Quartieri S. (eds.) (2016) Earth Sciences for Cultural Heritage. Elements vol 12, 2016.

  • Beck C.W. (ed.) (1974) Archaeological chemistry. American Chemical Society. Washington.
  • Bertrand L., Cotte M., Stampanonie M., Thourya M., Maronee F., Schöder S., (2012) Development and trends in synchrotron studies of ancient and historical materials. Physics Reports 519 51–96.
  • Bomford D., Leonard M. (2004) Issues in the conservation of paintings. Readings in conservation. The Getty Conservation Institute, Los Angeles.
  • Bowman S.G.E. (ed) (1991) Science and the past. British Museum Publications, London.
  • Bradley D., Creagh D. (eds.) (2006) Physical techniques in the study of art, archaeology and cultural heritage. Vol. 1. Elsevier, Amsterdam.
  • Bradley D., Creagh D. (eds.) (2007) Physical techniques in the study of art, archaeology and cultural heritage. Vol. 2. Elsevier, Amsterdam.
  • Brill J. H. (1971) Science and Archaeology. M.I.T. Press.
  • Brothwell D.R., Higgs E. (eds.) (1969) Science in archaeology. Praeger Publishers, New York.
  • Brothwell D.R., Pollard A.M. (eds.) (2001) Handbook of archaeological sciences. John Wiley & Sons, Chichester.
  • Budd P., Chapman B., Jackson C., Janaway R., Ottaway B. (1989) Archaeological sciences 1989. Proc. of a conference on the application of scientific techniques to archaeology. Bradford, September 1989. Oxbow Monograph 9.

  • Campanella et al. (2007) Chimica per l’arte. Zanichelli, Bologna.
  • Caple, C. (2006) Objects: reluctant witnesses to the past. Routledge.
  • Caple, C. (2009) The aims of conservation. Butterworth-Heinemann.
  • Cather S. (ed.) (1991) The conservation of wall paintings. Proc. of the Symposyum organized by the Courtauld Insitute of Art and the GCI, London, 13-16 July 1987. The Getty Conservation Institute, Los Angeles.
  • Ciliberto E., Spoto G. (eds) (2000) Modern analytical methods in art and archaeometry. Wiley & Sons, New York.
  • Craddock, P.T. (2003) The Scientific Detection of Fakes and Forgeries. Physics In Canada, 59, 235-242.
  • Craddock, P. (2009). Scientific investigation of copies, fakes and forgeries. Routledge.
  • Creagh D.C., Bradley D.A. (ed.) (2000) Radiation in art and archaeometry. Elsevier, Amsterdam.
  • Creagh D., Bradley D., (eds.) (2007) Physical techniques in the study of art, archaeology and cultural heritage. Vol. 2. Elsevier, Amsterdam.

  • Denker A., Adriaens A., Dowsett M., Giumlia-Mair A. (2006) COST Action G8: Non destructive testing and analysis of museum objects.
  • Derrick, M. R., Stulik, D., & Landry, J. M. (2000). Infrared spectroscopy in conservation science. Getty Publications.

  • England P.A., van Zelst L. (1985) Application of science in examination of works of art. Museum of Fine Arts, Boston.
  • Eastaugh N., Walsh V., Chaplin T., and Siddall R., (2004) The Pigment Compendium; A dictionary of historical pigments. Elsevier, Oxford.

  • Fleming S.J. (1976) Dating in archaeology: a guide to scientific techniques. Dent.
  • Forbes R.J. (1950) Metallurgy in antiquity - a Notebook for Archaeologists and Technologists. R.J. Brill, Leiden.
  • Forbes R.J. (1964-1971) Studies in ancient technology. Vols 1-8. R.J. Brill, Leiden.

  • Gigante G.E., Diana M. (eds.) (2005) Metodologie fisiche non distruttive per le indagini sui beni culturali. Centro Stampa d’Ateneo, Università degli Studi di Roma La Sapienza, Roma.
  • Glascock M.D., Speakman R.J., Popelka-Filcoff R.S. (2007) Archaeological Chemistry: Analytical Techniques and Archaeological Interpretation. American Chemical Society: Washington, D.C.
  • Goffer Z. (1980) Archaeological chemistry. John Wiley & Sons, New York.
  • Goffer Z. (2007) Archaeological chemistry. 2nd edition. Wiley-Interscience, New York.

  • Heizer R.F., Cook S.F. (1960) The application of quantitative methods in archaeology. Viking Fund Publication in Anthropology, London-New York.
  • Henderson J. (2000) The science and archaeology of materials. Routledge, London.

  • Kennedy G.C. (1959) The application of thermoluminescence to problems in archaeology. Inst. Geophysics, Univ. California.
  • Kumar Biswas A. (2005) Science in archaeology and archaeo-materials. D.K. Printworld, New Delhi.
     
  • Janssens K., Van Grieken R. (ed.) (2004) Non destructive microanalysis of cultural heritage materials. Comprehensive analytical chemistry series. Vol. XLII. Elsevier, Amsterdam.
  • Janssens K., Alfeld M., Van der Snickt G., De Nolf W., Vanmeert F., Radepont M., Monico L., Dik J., Cotte M., Falkenberg G., Miliani C., Brunett B.G., (2013) The Use of Synchrotron Radiation for the Characterization of Artists’ Pigments and Paintings. Annu. Rev. Anal. Chem. 6:399–425.
  • Jones R.E., Catling H.W. (1986) Science in archaeology. British Schools at Athens, Fitch Laboratory Occasional Paper 2.

  • Lambert J.B. (ed.) (1984) Archaeological chemistry (III). Advances in Chemistry Series, Vol. 205. American Chemical Society, Washington.
  • Lambert J.B. (1997) Traces of the past. Addison-Wesley, Reading.
  • Leroi-Ghouran A. (1964) Le geste et la parole I. Technique et langage. Albin Michel, Paris.
  • Leroi-Ghouran A. (1965) Le geste et la parole II. La memoire et les rythmes. Albin Michel, Paris.
  • Leute U. (1987) Archaeometry. An introduction to the physical methods in archaeology and the history of art. VHC, Weinheim.
  • Levey M. (1967) Archaeological chemistry – A Symposium. Univ. Pennsylvania Press, Philadelphia.
     
  • Maggetti M., Messiga B. (eds) (2006) Geomaterials in Cultural Heritage. Geological Society, London, Special Publications, 257.
  • Martini M., Milazzo M., Piacentini M. (2004) Physics methods in archaeology. Proc. Int. School of Physics. Course CLIV. SIF, Bologna, and IOS Press, Oxford.
  • Martinón-Torres, M., Rehren T. (2009). Archaeology, history and science: integrating approaches to ancient materials. Left Coast Press.
  • May, E., Jones, M. (2006) Conservation science: heritage materials. Royal Society of Chemistry.
  • McGovern P.E. et al. (1995) Science in archaeology: a review. Amer. J. Archaeol. 99, 79-142.
  • Mora P., Mora L., Phillipot P. (1984) Conservation of wall paintings. Butterworths, London.

  • Parkes P.A. (1986) Current scientific techniques in archeology. Croom Helm.
  • Pyddoke E. (1963) The scientist and archaeology. Roy Publishers, London-New York.
  • Pollard A.M., Heron C. (1996) Archaeological chemistry. RSC paperbacks. The Royal Society of Chemistry, Cambridge.
  • Pollard A.M., Batt C.M., Stern B., Young S.M.M. (2007) Analytical chemistry in archaeology. Cambridge Manuals in Archaeology Series. Cambridge University Press, Cambridge.

  • Rapp G. (2002) Archaeomineralogy. Springer-Verlag, Berlin.
  • Rapp G., Hill C.L. (1998) Geoarchaeology. The Earth-Science approach to archaeological interpretation. Yale University Press, New Haven.
  • Renfrew C., Bahn P. (2000) Archaeology: Theories, methods and practice. Thames & Hudson, London.
  • Rosenfeld A. (1965) The inorganic materials of antiquity. Weidenfeld and Nicholson, London.

  • Scientific examination of art. Articles from the Arthur M. Sackler Colloquium, National Academy of Sciences, Washington, March 19-21, 2003. The National Academies Press, Washington.
  • Shennan S. (1988) Quantifying archaeology. Edinburgh University Press, Edinburgh – Academic Press, San Diego.
  • Stuart B.H. (2007) Analytical techniques in materials conservation. John Wiley & Sons, New York.
     
  • Taylor R.E., Aitken M.J. (1997) Chronometric dating in archaeology. Plenum, New York.
  • Tite M.S. (1972) Methods of physical examination in archaeology. Seminar Press, London.

  • Uda M., Demortier G., Nakai I. (eds.) (2005) X-rays for archaeology. Springer, Berlin.