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035   $a(CKB)5680000000080718
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/92109
035   $a(EXLCZ)995680000000080718
100   $a20202209d2022      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aContribution of X-ray Fluorescence Techniques in Cultural Heritage Materials Characterisation
210   $aBasel$cMDPI Books$d2022
215   $a1 electronic resource (148 p.)
311   $a3-0365-4867-X 
311   $a3-0365-4868-8 
330   $aArchaeometry and cultural heritage have lately taken advantage of developments in scientific techniques, offering valuable information to archaeology, art history, and conservation science, involving both instrumental and non-instrumental approaches. Among the possible techniques, X-Ray fluorescence (XRF) has become one of the most applied techniques for cultural heritage elemental material characterization due to its user friendliness; fast, short acquisition times; portability; and most of all, its absolutely non-destructive nature. For this reason, besides being often a first choice for a preliminary overall materials investigation, XRF spectrometers and spectra data handling methods have continuously improved, giving rise to many variations of the same technique; portable spectrometers, micro-probes, and large area scanners are all variations of a very flexible technique. This Special Issue collects papers dealing with most of the analytical techniques related to XRF spectroscopy appropriate for applications to Cultural Heritage materials. We dedicate this Special Issue to the loving memory of Professor Mario Milazzo, a pioneer of Archaeometry in Italy, awarded in 2002 the Gold Medal for Culture by the Italian President. He is remembered as a generous and pleasant man with an insightful, logical mind, who was able to find an appropriate joke for every situation. Many of us following his footsteps in the research field of applied physics for Cultural Heritage still appreciate his vision, teaching, and impact on our lives.
606   $aResearch & information: general$2bicssc
606   $aPhysics$2bicssc
610   $aMA-XRF
610   $aconservation studies
610   $afurniture
610   $aPietro Piffetti
610   $achinoiserie lacquered cabinet
610   $aSAM
610   $aSTEAM
610   $apigments
610   $aelemental mapping
610   $apainting stratigraphy
610   $aGiotto
610   $aheritage science
610   $anon-invasive analysis
610   $aportable equipment
610   $apigment identification
610   $avan der Weyden
610   $aFlemish painting
610   $acalco-potassic glass in painting
610   $aINFN-CHNet
610   $aOpificio delle Pietre Dure
610   $aX-ray fluorescence
610   $asynchrotron radiation
610   $aµXRF
610   $aµXANES
610   $ablack gloss
610   $aancient ceramics
610   $aroman mortar
610   $ahistoric mortar
610   $amosaic floors
610   $aXRF
610   $aBracara Augusta
610   $aStradivari
610   $amusical instrument
610   $amandolin
610   $avarnish
610   $acoatings
610   $amulti-layered structure
610   $areflection FT-IR
610   $aspectroscopy
610   $apXRF
610   $aPCA
610   $apottery
610   $aEDXRF
610   $acultural heritage materials
610   $apigment analysis
610   $aceramics classification
610   $ametal alloy quantitative analysis
615  7$aResearch & information: general
615  7$aPhysics
700   $aGalli$b Anna$4edt$01332330
702   $aBonizzoni$b Letizia$4edt
702   $aGalli$b Anna$4oth
702   $aBonizzoni$b Letizia$4oth
906   $aBOOK
912   $a9910595080603321
996   $aContribution of X-ray Fluorescence Techniques in Cultural Heritage Materials Characterisation$93040844
997   $aUNINA