Images of the cork used for wine and other bottles are visualized with the use of diffraction-enhanced imaging (DEI) technique. Present experimental studies allowed us to identify the cracks, holes, porosity, and importance of soft-matter (soft-material) and associated biology by visualization of the embedded internal complex features of the biological material such as cork and its microstructure. Highlighted the contrast mechanisms above and below the K-absorption edge of iodine and studied the attenuation through a combination of weakly and strongly attenuating materials. Copyright © 2010 Crown copyright.
Cork embedded internal features and contrast mechanisms with DEI using 18, 20, 30, 36, and 40 kev synchrotron x-rays / V., Rao Donepudi; Roberto, Cesareo; M., Cesareo Swapna; Antonio, Brunetti; Zhong, Zhong; T., Akatsuka; Tetsuya, Yuasa; Takao, Akatsuka; Tohoru, Takeda; Gigante, Giovanni Ettore. - In: RESEARCH IN NONDESTRUCTIVE EVALUATION. - ISSN 0934-9847. - 21:3(2010), pp. 171-183. [10.1080/09349847.2010.493990]
Cork embedded internal features and contrast mechanisms with DEI using 18, 20, 30, 36, and 40 kev synchrotron x-rays
GIGANTE, Giovanni Ettore
2010
Abstract
Images of the cork used for wine and other bottles are visualized with the use of diffraction-enhanced imaging (DEI) technique. Present experimental studies allowed us to identify the cracks, holes, porosity, and importance of soft-matter (soft-material) and associated biology by visualization of the embedded internal complex features of the biological material such as cork and its microstructure. Highlighted the contrast mechanisms above and below the K-absorption edge of iodine and studied the attenuation through a combination of weakly and strongly attenuating materials. Copyright © 2010 Crown copyright.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
