After  the scanning  and  imaging  process,
 elemental XRF maps are obtained by raster
 scanning the object with a small X-ray beam. The
 advantage of synchrotron-based imaging over
 commercial systems is X-ray beam polarization
 to reduce scattering background, tunability of the
 X-ray energy, enhanced spatial resolution, larger
 focal depth (ensuring that uneven objects stay in
 focus) and faster scanning speed due to the larger
 flux. Over the past decade, numerous studies have
 demonstrated the viability of XRF mapping to reveal
 elements from writings in paper or parchment
 manuscripts and other large objects.
 analysis of material composition. To briefly explain   Elemental maps from the unique features of the
 the process of XRF, a sample is irradiated with a  paper and prints in these bound paper books will
 very high-energy of X-rays beam from the energy  combine chemical composition analysis with spatial
 source. In this case, is the synchrotron. When the  information. Based on the findings in the elemental
 X-ray beam strikes the sample, particularly an atom,  maps, quantitative point analyses are conducted
 an electron from one of the atom’s inner orbital  on selected areas of each folio. The combination
 shells is dislodged. The atom regains stability,  of elemental maps and point analysis offers
 filling the vacancy left in the inner orbital shell with  information on the components of the typeface and
 an electron from one of the atom’s higher energy  ink, as well as the paper. This information allows
 orbital shells. The electron drops to a lower energy  the researchers to assess any chemical similarities
 state by releasing a fluorescent X-ray. The energy  and differences across entire paper pages between
 of this X-ray is equal to the specific difference in  early Korean books and European books.
 energy between two quantum states of the electron.
 The measurement of this energy is the basis of XRF
 [1]
 analysis , providing data for the elemental XRF
 maps.
 The XRF analysis and imaging method that was
 used for this research has great potential to reveal
 unique information about the lead-alloy metal types
 and inks used in early printing materials from Korea.
 The team employed XRF imaging and pointed
 analysis to determine the elemental composition
 of the inks and paper with potential traces of the
 type metals in 14th to 19th-century printed books
 using cast-metal type. Comparing the trace metal
 concentrations and spatial distributions in the ink
 and paper of these books critically contributes
 to the team’s understanding of the printing and
 typecasting methods used in this early information
 technology.









 [1] Thermo Fisher Scientific. (2020. What is XRF (X-ray fluorescence) and how does it work? Ask a Scientist.
      from https://www.thermofisher.com/blog/ask-a-scientist/what-is-xrf-x-ray-fluorescence-and-how-does-it-work/(2020)


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