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DDC 621.36
M 12
MacDonald, (Carolyn Ann),.
An introduction to x-ray physics, optics, and applications / / Carolyn A. MacDonald. - Princeton : : Princeton University Press,, ©2017. - 1 online resource. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/E554EEB0-4BE6-419E-9D77-59FAB96D7F5A . - ISBN 9781400887736 (electronic bk.). - ISBN 1400887739 (electronic bk.). - ISBN 0691139652. - ISBN 9780691139654
Includes index. Online resource, title from PDF title page (EBSCO, viewed June 4, 2017).
Содержание:
Cover; Title; Copyright; Dedication; CONTENTS; Preface; Acknowledgments; List of Constants and Variables; PART I. FOUNDATIONS; 1. INTRODUCTION; 1.1 The discovery; 1.2 What is an x ray?; 1.3 What makes x rays useful?; 1.4 The layout of the text; 1.5 The elusive hyphen; Problems ; Further reading; 2. A CASE STUDY: NUCLEAR MEDICINE; 2.1 Metastable emitters and half-life ; 2.2 A brief introduction to nuclear decay.
2.3 Nuclear medicine2.4 Photon detection and scatter rejection; 2.5 Photon statistics; 2.6 SPECT; Problems ; Further reading; PART II. X-RAY GENERATION ; 3. THERMAL SOURCES AND PLASMAS; 3.1 Blackbody radiation; 3.2 Generation of very hot plasmas; 3.3 Plasma frequency; 3.4 Debye length; 3.5 Screening and the Debye length; 3.6 Fluctuations and the Debye length; Problems ; Further reading.
4. CHARACTERISTIC RADIATION, X-RAY TUBES, AND X-RAY FLUORESCENCE SPECTROSCOPY 4.1 Introduction; 4.2 Core atomic levels; 4.3 Characteristic spectra; 4.4 Emission rates and intensity; 4.5 Auger emission; 4.6 Line widths; 4.7 X-ray fluorescence.
Problems Further reading; 5. SOURCE INTENSITY, DIVERGENCE, AND COHERENCE; 5.1 Intensity and angular intensity; 5.2 Photon intensity and photon angular intensity; 5.3 Brightness and brilliance; 5.4 Global divergence; 5.5 Local divergence; 5.6 X-ray tube design ; 5.7 Coherence; 5.8 Spatial coherence; 5.9 Temporal coherence; 5.10 In-line phase imaging.
Problems Further reading; 6. BREMSSTRAHLUNG RADIATION AND X-RAY TUBES ; 6.1 Field from a moving charge; 6.2 Radiation from an accelerating (or decelerating) charge; 6.3 Emission from a very thin anode; 6.4 Emission from a thick anode; 6.5 Efficiency.
~РУБ DDC 621.36
Рубрики: X-ray optics.
X-ray spectroscopy.
Optical detectors.
TECHNOLOGY & ENGINEERING--Optics.
SCIENCE--Spectroscopy & Spectrum Analysis.
Optical detectors.
X-ray optics.
X-ray spectroscopy.
SCIENCE / Physics / Optics & Light
Аннотация: In this book, Carolyn A. MacDonald provides a comprehensive introduction to the physics of a wide range of x-ray applications, optics, and analysis tools. Theory is applied to practical considerations of optics and applications ranging from astronomy to medical imaging and materials analysis. Emphasizing common physical concepts that underpin diverse phenomena and applications of x-ray physics, the book opens with a look at nuclear medicine, motivating further investigations into scattering, detection, and noise statistics. The second section explores topics in x-ray generation, including characteristic emission, x-ray fluorescence analysis, bremsstrahlung emission, and synchrotron and laser sources. The third section details the main forms of interaction, including the physics of photoelectric absorption, coherent and Compton scattering, diffraction, and refractive, reflective, and diffractive optics. Applications in this section include x-ray spectroscopy, crystallography, and dose and contrast in radiography. A bibliography is included at the end of every chapter, and solutions to chapter problems are provided in the appendix. Based on a course for advanced undergraduates and graduate students in physics and related sciences and also intended for researchers, An Introduction to X-Ray Physics, Optics, and Applications offers a thorough survey of the physics of x-ray generation and of interaction with materials.Common aspects of diverse phenomena emphasizedTheoretical development tied to practical applications Suitable for advanced undergraduate and graduate students in physics or related sciences, as well as researchersExamples and problems include applications drawn from medicine, astronomy, and materials analysisDetailed solutions are provided for all examples and problems.
M 12
MacDonald, (Carolyn Ann),.
An introduction to x-ray physics, optics, and applications / / Carolyn A. MacDonald. - Princeton : : Princeton University Press,, ©2017. - 1 online resource. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/E554EEB0-4BE6-419E-9D77-59FAB96D7F5A . - ISBN 9781400887736 (electronic bk.). - ISBN 1400887739 (electronic bk.). - ISBN 0691139652. - ISBN 9780691139654
Includes index. Online resource, title from PDF title page (EBSCO, viewed June 4, 2017).
Содержание:
Cover; Title; Copyright; Dedication; CONTENTS; Preface; Acknowledgments; List of Constants and Variables; PART I. FOUNDATIONS; 1. INTRODUCTION; 1.1 The discovery; 1.2 What is an x ray?; 1.3 What makes x rays useful?; 1.4 The layout of the text; 1.5 The elusive hyphen; Problems ; Further reading; 2. A CASE STUDY: NUCLEAR MEDICINE; 2.1 Metastable emitters and half-life ; 2.2 A brief introduction to nuclear decay.
2.3 Nuclear medicine2.4 Photon detection and scatter rejection; 2.5 Photon statistics; 2.6 SPECT; Problems ; Further reading; PART II. X-RAY GENERATION ; 3. THERMAL SOURCES AND PLASMAS; 3.1 Blackbody radiation; 3.2 Generation of very hot plasmas; 3.3 Plasma frequency; 3.4 Debye length; 3.5 Screening and the Debye length; 3.6 Fluctuations and the Debye length; Problems ; Further reading.
4. CHARACTERISTIC RADIATION, X-RAY TUBES, AND X-RAY FLUORESCENCE SPECTROSCOPY 4.1 Introduction; 4.2 Core atomic levels; 4.3 Characteristic spectra; 4.4 Emission rates and intensity; 4.5 Auger emission; 4.6 Line widths; 4.7 X-ray fluorescence.
Problems Further reading; 5. SOURCE INTENSITY, DIVERGENCE, AND COHERENCE; 5.1 Intensity and angular intensity; 5.2 Photon intensity and photon angular intensity; 5.3 Brightness and brilliance; 5.4 Global divergence; 5.5 Local divergence; 5.6 X-ray tube design ; 5.7 Coherence; 5.8 Spatial coherence; 5.9 Temporal coherence; 5.10 In-line phase imaging.
Problems Further reading; 6. BREMSSTRAHLUNG RADIATION AND X-RAY TUBES ; 6.1 Field from a moving charge; 6.2 Radiation from an accelerating (or decelerating) charge; 6.3 Emission from a very thin anode; 6.4 Emission from a thick anode; 6.5 Efficiency.
УДК |
Рубрики: X-ray optics.
X-ray spectroscopy.
Optical detectors.
TECHNOLOGY & ENGINEERING--Optics.
SCIENCE--Spectroscopy & Spectrum Analysis.
Optical detectors.
X-ray optics.
X-ray spectroscopy.
SCIENCE / Physics / Optics & Light
Аннотация: In this book, Carolyn A. MacDonald provides a comprehensive introduction to the physics of a wide range of x-ray applications, optics, and analysis tools. Theory is applied to practical considerations of optics and applications ranging from astronomy to medical imaging and materials analysis. Emphasizing common physical concepts that underpin diverse phenomena and applications of x-ray physics, the book opens with a look at nuclear medicine, motivating further investigations into scattering, detection, and noise statistics. The second section explores topics in x-ray generation, including characteristic emission, x-ray fluorescence analysis, bremsstrahlung emission, and synchrotron and laser sources. The third section details the main forms of interaction, including the physics of photoelectric absorption, coherent and Compton scattering, diffraction, and refractive, reflective, and diffractive optics. Applications in this section include x-ray spectroscopy, crystallography, and dose and contrast in radiography. A bibliography is included at the end of every chapter, and solutions to chapter problems are provided in the appendix. Based on a course for advanced undergraduates and graduate students in physics and related sciences and also intended for researchers, An Introduction to X-Ray Physics, Optics, and Applications offers a thorough survey of the physics of x-ray generation and of interaction with materials.Common aspects of diverse phenomena emphasizedTheoretical development tied to practical applications Suitable for advanced undergraduate and graduate students in physics or related sciences, as well as researchersExamples and problems include applications drawn from medicine, astronomy, and materials analysisDetailed solutions are provided for all examples and problems.
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