Language:
English
繁體中文
Help
回圖書館首頁
手機版館藏查詢
Login
Back
Switch To:
Labeled
|
MARC Mode
|
ISBD
Spectroscopy, diffraction and tomogr...
~
Adriaens, Mieke.
Linked to FindBook
Google Book
Amazon
博客來
Spectroscopy, diffraction and tomography in art and heritage science
Record Type:
Electronic resources : Monograph/item
Title/Author:
Spectroscopy, diffraction and tomography in art and heritage science/ edited by Mieke Adriaens, Mark Dowsett.
other author:
Adriaens, Mieke.
Published:
Amsterdam :Elsevier, : 2021.,
Description:
1 online resource.
[NT 15003449]:
Intro -- Spectroscopy, Diffraction and Tomography in Art and Heritage Science -- Copyright -- Contents -- Contributors -- Chapter 1: Origins and fundamentals -- 1. Introduction -- 2. A brief cultural history of optics and spectroscopy -- 2.1. Optics -- 2.2. Light, vision, and spectra -- 2.3. The two slit experiment -- 3. The eye as a spectroscope -- 4. Radiation beams -- 4.1. Beam energy and momentum -- 4.2. Wavelength and frequency -- 4.3. Particles in a beam -- 4.4. More beam parameters -- 4.5. Information depth -- 5. Destructive, nondestructive, invasive, and noninvasive techniques.
[NT 15003449]:
5.1. Destructive and nondestructive -- 5.2. Microdestructive techniques -- 5.3. Noninvasive analysis -- 5.4. How to approach a truly nondestructive analysis -- References -- Chapter 2: Raman and infrared spectroscopy in conservation and restoration -- 1. Raman and infrared spectroscopy in conservation and restoration -- 2. Introduction to vibrational spectroscopy -- 3. Raman spectroscopy -- 3.1. Laboratory Raman analysis -- 3.1.1. Applications -- 3.1.2. Selection of an appropriate laser -- 3.2. Direct and on-site Raman spectroscopy -- 3.2.1. Applications.
[NT 15003449]:
3.2.2. Comparison of two mobile instruments -- 3.3. Other Raman approaches and techniques -- 4. Infrared spectroscopy -- 5. Conclusions -- Acknowledgments -- References -- Chapter 3: Spectroscopy and diffraction using the electron microscope -- 1. Basic principles and main outlines -- 2. Electron/matter interactions -- 3. Scanning electron microscopy -- 3.1. Imaging modes -- 3.2. Spectroscopy analysis -- 3.3. Diffraction -- 4. Transmission electron microscopy -- 4.1. Sample preparation -- 4.2. The instrument -- 4.3. Electron diffraction (SAED and CBED) -- 4.4. Imaging modes.
[NT 15003449]:
4.4.1. Amplitude contrast (BF and DF) -- 4.4.2. Phase contrast (HRTEM) -- 4.5. Chemical analysis -- 5. Scanning transmission electron microscopy -- 5.1. Principle -- 5.2. STEM imaging (BF, DF, HAADF) -- 5.3. STEM-EDX -- 5.4. STEM-EELS -- 5.5. STEM-PACOM (precession-assisted crystal orientation mapping) -- 5.6. Beam damage -- 6. Conclusions -- Acknowledgment -- References -- Chapter 4: UV-visible-near IR reflectance spectrophotometry in a museum environment -- 1. Introduction -- 2. Advantages and limitations of UV-vis-NIR reflectance spectroscopy for the analysis of museum objects.
[NT 15003449]:
3. Instrumentation, setup and data processing methods -- 4. Complementary methods -- 5. Research questions and case studies -- 5.1. Cross-disciplinary research on medieval and Renaissance illuminated manuscripts -- 5.2. Getting it right: Identification of gemstones in historical jewelry -- 5.3. Recovering lost pigments and revealing construction techniques of medieval polychrome wood sculpture -- 6. Where next? -- Acknowledgments -- References -- Chapter 5: Neutron and X-ray tomography in cultural heritage studies -- 1. Introduction: The aim of cultural heritage studies with tomography methods.
Subject:
Art - Research -
Online resource:
https://www.sciencedirect.com/science/book/9780128188606
ISBN:
9780128188613 (electronic bk.)
Spectroscopy, diffraction and tomography in art and heritage science
Spectroscopy, diffraction and tomography in art and heritage science
[electronic resource] /edited by Mieke Adriaens, Mark Dowsett. - Amsterdam :Elsevier,2021. - 1 online resource.
Intro -- Spectroscopy, Diffraction and Tomography in Art and Heritage Science -- Copyright -- Contents -- Contributors -- Chapter 1: Origins and fundamentals -- 1. Introduction -- 2. A brief cultural history of optics and spectroscopy -- 2.1. Optics -- 2.2. Light, vision, and spectra -- 2.3. The two slit experiment -- 3. The eye as a spectroscope -- 4. Radiation beams -- 4.1. Beam energy and momentum -- 4.2. Wavelength and frequency -- 4.3. Particles in a beam -- 4.4. More beam parameters -- 4.5. Information depth -- 5. Destructive, nondestructive, invasive, and noninvasive techniques.
ISBN: 9780128188613 (electronic bk.)Subjects--Topical Terms:
3615056
Art
--ResearchIndex Terms--Genre/Form:
542853
Electronic books.
LC Class. No.: N85
Dewey Class. No.: 707.21
Spectroscopy, diffraction and tomography in art and heritage science
LDR
:03716cmm a2200277 a 4500
001
2308522
006
m o d
007
cr |n|||||||||
008
230530s2021 ne a o 000 0 eng
020
$a
9780128188613 (electronic bk.)
020
$a
0128188618 (electronic bk.)
020
$a
9780128188606
020
$a
012818860X
035
$a
022592621
040
$a
YDX
$b
eng
$c
YDX
$d
EBLCP
041
0
$a
eng
050
4
$a
N85
082
0 4
$a
707.21
$2
23
245
0 0
$a
Spectroscopy, diffraction and tomography in art and heritage science
$h
[electronic resource] /
$c
edited by Mieke Adriaens, Mark Dowsett.
260
$a
Amsterdam :
$b
Elsevier,
$c
2021.
300
$a
1 online resource.
505
0
$a
Intro -- Spectroscopy, Diffraction and Tomography in Art and Heritage Science -- Copyright -- Contents -- Contributors -- Chapter 1: Origins and fundamentals -- 1. Introduction -- 2. A brief cultural history of optics and spectroscopy -- 2.1. Optics -- 2.2. Light, vision, and spectra -- 2.3. The two slit experiment -- 3. The eye as a spectroscope -- 4. Radiation beams -- 4.1. Beam energy and momentum -- 4.2. Wavelength and frequency -- 4.3. Particles in a beam -- 4.4. More beam parameters -- 4.5. Information depth -- 5. Destructive, nondestructive, invasive, and noninvasive techniques.
505
8
$a
5.1. Destructive and nondestructive -- 5.2. Microdestructive techniques -- 5.3. Noninvasive analysis -- 5.4. How to approach a truly nondestructive analysis -- References -- Chapter 2: Raman and infrared spectroscopy in conservation and restoration -- 1. Raman and infrared spectroscopy in conservation and restoration -- 2. Introduction to vibrational spectroscopy -- 3. Raman spectroscopy -- 3.1. Laboratory Raman analysis -- 3.1.1. Applications -- 3.1.2. Selection of an appropriate laser -- 3.2. Direct and on-site Raman spectroscopy -- 3.2.1. Applications.
505
8
$a
3.2.2. Comparison of two mobile instruments -- 3.3. Other Raman approaches and techniques -- 4. Infrared spectroscopy -- 5. Conclusions -- Acknowledgments -- References -- Chapter 3: Spectroscopy and diffraction using the electron microscope -- 1. Basic principles and main outlines -- 2. Electron/matter interactions -- 3. Scanning electron microscopy -- 3.1. Imaging modes -- 3.2. Spectroscopy analysis -- 3.3. Diffraction -- 4. Transmission electron microscopy -- 4.1. Sample preparation -- 4.2. The instrument -- 4.3. Electron diffraction (SAED and CBED) -- 4.4. Imaging modes.
505
8
$a
4.4.1. Amplitude contrast (BF and DF) -- 4.4.2. Phase contrast (HRTEM) -- 4.5. Chemical analysis -- 5. Scanning transmission electron microscopy -- 5.1. Principle -- 5.2. STEM imaging (BF, DF, HAADF) -- 5.3. STEM-EDX -- 5.4. STEM-EELS -- 5.5. STEM-PACOM (precession-assisted crystal orientation mapping) -- 5.6. Beam damage -- 6. Conclusions -- Acknowledgment -- References -- Chapter 4: UV-visible-near IR reflectance spectrophotometry in a museum environment -- 1. Introduction -- 2. Advantages and limitations of UV-vis-NIR reflectance spectroscopy for the analysis of museum objects.
505
8
$a
3. Instrumentation, setup and data processing methods -- 4. Complementary methods -- 5. Research questions and case studies -- 5.1. Cross-disciplinary research on medieval and Renaissance illuminated manuscripts -- 5.2. Getting it right: Identification of gemstones in historical jewelry -- 5.3. Recovering lost pigments and revealing construction techniques of medieval polychrome wood sculpture -- 6. Where next? -- Acknowledgments -- References -- Chapter 5: Neutron and X-ray tomography in cultural heritage studies -- 1. Introduction: The aim of cultural heritage studies with tomography methods.
650
0
$a
Art
$x
Research
$x
Methodology.
$3
3615056
650
0
$a
Cultural property
$x
Research
$x
Methodology.
$3
3615057
650
0
$a
Spectrum analysis.
$3
520440
650
0
$a
Diffraction.
$3
624261
650
0
$a
Tomography.
$3
836553
655
4
$a
Electronic books.
$2
lcsh
$3
542853
700
1
$a
Adriaens, Mieke.
$3
3615054
700
1
$a
Dowsett, Mark.
$3
3615055
856
4 0
$u
https://www.sciencedirect.com/science/book/9780128188606
筆 0 讀者評論
館藏地:
ALL
電子資源
出版年:
卷號:
館藏
1 筆 • 頁數 1 •
1
條碼號
典藏地名稱
館藏流通類別
資料類型
索書號
使用類型
借閱狀態
預約狀態
備註欄
附件
W9448587
電子資源
11.線上閱覽_V
電子書
EB N85
一般使用(Normal)
在架
0
1 筆 • 頁數 1 •
1
多媒體
評論
新增評論
分享你的心得
Export
取書館
處理中
...
變更密碼
登入