Studies of Coins of Medieval Volga Bulgaria by Neutron Diffraction and Tomography

Bakirov, B. A.; Кичанов, С. Е.; Khramchenkova, Rezida Kh.; Belushkin, Α. V.; Козленко, Д. П.; Sitdikov, Ayrat

doi:10.1134/s1027451020020433

Cited by 8 publications

(6 citation statements)

References 30 publications

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“…The results of the chemical composition obtained from the surface of coins may differ from the distribution of chemical components in the entire coin volume [ 12 , 14 ]. The neutron diffraction method provides a non-destructive structural diagnostic with high penetration inside a volume of coins.…”

Section: Resultsmentioning

confidence: 99%

“…Currently, coins are being intensely investigated by means of non-destructive physical methods, such as traditional techniques like metallography or X-ray diffraction [ 1 , 3 , 9 ]. In this context, we should also mention the neutron radiography [ 10 , 11 , 12 ] and neutron diffraction [ 12 , 13 , 14 ] methods as relatively modern structural non-destructive experimental approaches [ 1 , 15 , 16 ]. The fundamental difference in nature of neutron interaction with matter compared to X-rays provides additional benefits to neutron methods, including sensitivity to light elements, a notable difference in contrast between isotopes and high penetration effect through metals or heavy elements.…”

Section: Introductionmentioning

confidence: 99%

“…The fundamental difference in nature of neutron interaction with matter compared to X-rays provides additional benefits to neutron methods, including sensitivity to light elements, a notable difference in contrast between isotopes and high penetration effect through metals or heavy elements. Neutron imaging and scattering methods are successful in separating the components of coin alloys with neighboring elements: iron and nickel, copper and zinc [ 17 ], copper and silver [ 12 , 14 ], copper and lead [ 18 ]. Moreover, neutron structural methods were applied to determine the bulk composition hidden by corrosion [ 11 , 14 ] for coin identification [ 11 ], for the reconstruction of coinage technologies and sources of mining materials for coins [ 19 ] and for the description of coins’ degradation like internal corrosion tracks [ 11 , 20 ] and deterioration areas [ 18 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

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Phase Composition and Its Spatial Distribution in Antique Copper Coins: Neutron Tomography and Diffraction Studies

et al. 2021

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The chemical and elementary composition, internal arrangement, and spatial distribution of the components of ancient Greek copper coins were studied using XRF analysis, neutron diffraction and neutron tomography methods. The studied coins are interesting from a historical and cultural point of view, as they are “Charon’s obol’s”. These coins were discovered at the location of an ancient Greek settlement during archaeological excavations on the “Volna-1” necropolis in Krasnodar Region, Russian Federation. It was determined that the coins are mainly made of a bronze alloy, a tin content that falls in the range of 1.1(2)–7.9(3) wt.%. All coins are highly degraded; corrosion and patina areas occupy volumes from ~27 % to ~62 % of the original coin volumes. The neutron tomography method not only provided 3D data of the spatial distribution of the bronze alloy and the patina with corrosion contamination inside coin volumes, but also restored the minting pattern of several studied coins. Taking into account the obtained results, the origin and use of these coins in the light of historical and economic processes of the Bosporan Kingdom are discussed.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Phase Composition and Its Spatial Distribution in Antique Copper Coins: Neutron Tomography and Diffraction Studies

et al. 2021

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“…The patina of ancient objects made of silver alloys may contain Ag 2 O, Ag 2 S, and/or AgCl, which can result in uncertainties concerning the obtained elemental data [ 9 ]. Therefore, the detected chemical composition obtained from the surface of the coin can be fundamentally different from the chemical composition over the entire volume of the coin [ 23 ]. Moreover, even when bulk material composition of ancient silver coins is obtained by destructive testing methods, there may be uncertainties concerning elemental analysis results that assume homogenous elemental distribution, which is often incorrect [ 21 ].…”

Section: Technological Background To Researchmentioning

confidence: 99%

Archaeometallurgical Analysis of the Provincial Silver Coinage of Judah: More on the Chaîne Opératoire of the Minting Process

Cohen

Ashkenazi

Gitler³

et al. 2023

Materials

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Silver coins were the first coins to be manufactured by mass production in the southern Levant. An assemblage of tiny provincial silver coins of the local (Judahite standard) and (Attic) obol-based denominations from the Persian and Hellenistic period Yehud and dated to the second half of the fourth century BCE were analyzed to determine their material composition. Of the 50 silver coins, 32 are defined as Type 5 (Athena/Owl) of the Persian period Yehud series (ca. 350–333 BCE); 9 are Type 16 (Persian king wearing a jagged crown/Falcon in flight) (ca. 350–333); 3 are Type 24 series (Portrait/Falcon) of the Macedonian period (ca. 333–306 BCE); and 6 are Type 31 (Portrait/Falcon) (ca. 306–302/1 BCE). The coins underwent visual testing, multi-focal light microscope observation, XRF analysis, and SEM-EDS analysis. The metallurgical findings revealed that all the coins from the Type 5, 16, 24, and 31 series are made of high-purity silver with a small percentage of copper. Based on these results, it is suggested that each series was manufactured using a controlled composition of silver–copper alloy. The findings present novel information about the material culture of the southern Levant during the Late Persian period and Macedonian period, as expressed through the production and use of these silver coins.

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“…Currently, active experimental research is being conducted on the coins discovered during excavations using both traditional research methods and modern methods of non-destructive structural diagnostics [9][10][11][12][13]. Such structural methods include the X-ray diffraction method [14,15], which makes it possible to obtain information about the phase composition of the investigated object, and the neutron imaging methods, which allows to obtain the spatial distribution of phase components in the volume of the studied coins [13,14,[16][17][18]. The neutron tomography method, due to the features of the neutron beam interaction while passing through the elements of the investigated object with different chemical compositions, thickness and density, makes it possible to obtain detailed information about the internal structure of metal coins [16,19] with a spatial resolution at the micron level [20], as well as to obtain a virtual three-dimensional model of the coin for further analysis.…”

Section: Introductionmentioning

confidence: 99%

Non-destructive structural studies of coins from the Uzundara Fortress using X-ray diffraction and neutron tomography

Tashmetov

Yuldashev

Adizov

et al. 2022

Eurasian j. phys. funct. mater.

Self Cite

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The copper Heliocles coin and two silver Demetrius coins dated to the II century BC from the archaeological works of the Uzundara fortress of the Greco-Bactrian Kingdom were studied using non-destructive structural diagnostics methods. The phase analysis of the coins was performed using the X-ray diffraction method. Also, the spatial distribution of the internal components of the coins was investigated by neutron imaging methods. It has been established that the dominant phase of the Heliocles coin is copper, however, a small volume of patina was found. It is mainly represented by tenorite CuO phase. The neutron tomography method indicates a deep penetration of tenorite into the thickness of the coin, and its volume fraction can reach 10% of the total volume. Two Demetrius coins consist entirely of silver. The complex profile of coins due to the features of a coinage was reconstructed. The phase composition, the content of the composite phases and three-dimensional models of the studied coins were obtained.

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Studies of Coins of Medieval Volga Bulgaria by Neutron Diffraction and Tomography

Cited by 8 publications

References 30 publications

Phase Composition and Its Spatial Distribution in Antique Copper Coins: Neutron Tomography and Diffraction Studies

Phase Composition and Its Spatial Distribution in Antique Copper Coins: Neutron Tomography and Diffraction Studies

Archaeometallurgical Analysis of the Provincial Silver Coinage of Judah: More on the Chaîne Opératoire of the Minting Process

Non-destructive structural studies of coins from the Uzundara Fortress using X-ray diffraction and neutron tomography

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