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El. knyga: Fundamentals Of Imaging, The: From Particles To Galaxies

(University Of York, Uk)
  • Formatas: 376 pages
  • Išleidimo metai: 12-Sep-2011
  • Leidėjas: Imperial College Press
  • Kalba: eng
  • ISBN-13: 9781908977823
Kitos knygos pagal šią temą:
Fundamentals Of Imaging, The: From Particles To GalaxiesDidesnis paveikslėlis
  • Formatas: 376 pages
  • Išleidimo metai: 12-Sep-2011
  • Leidėjas: Imperial College Press
  • Kalba: eng
  • ISBN-13: 9781908977823
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It is through images that we understand the form and function of material objects, from the fundamental particles that are the constituents of matter to galaxies that are the constituents of the Universe. Imaging must be thought of in a flexible way as varying from just the detection of objects — a blip on a screen representing an aircraft or a vapour trail representing the passage of an exotic particle — to displaying the fine detail in the eye of an insect or the arrangement of atoms within or on the surface of a solid. The range of imaging tools, both in the type of wave phenomena used and in the devices that utilize them, is vast.This book will illustrate this range, with wave phenomena covering the entire electromagnetic spectrum and ultrasound, and devices that vary from those that just detect the presence of objects to those that image objects in exquisite detail. The word 'fundamentals' in the title has meaning for this book. There will be no attempt to delve into the fine technical details of the construction of specific devices but rather the book aims to give an understanding of the principles behind the imaging process and a general account of how those principles are utilized.
Preface xi
1 The Human Visual System
1(14)
1.1 The Optical System
1(3)
1.2 The Photoreceptors
4(2)
1.3 The Way that Nerve Cells Operate and Communicate
6(2)
1.4 The Neural Network of the Eye
8(5)
1.5 The Visual Cortex
13(2)
2 The Evolution of the Eye
15(10)
2.1 Plants and Light
16(1)
2.2 Different Forms of Eye
17(3)
2.3 The Evolution of the Vertebrate Eye
20(5)
3 Waves and Image Formation
25(16)
3.1 What is Light?
25(2)
3.2 Huygens' Wavelets
27(1)
3.3 Reflection and Refraction
28(2)
3.4 Stereoscopy
30(3)
3.5 Holography
33(8)
4 Seeing Small Objects
41(28)
4.1 Resolution of the Visnal System
41(5)
4.2 A Simple Microscope---the Magnifying Glass
46(3)
4.3 The Compound Microscope
49(6)
4.4 Phase-Contrast Microscopy
55(4)
4.5 Electron Microscopy
59(10)
4.5.1 The transmission electron microscope
63(1)
4.5.2 The scanning electron microscope
64(2)
4.5.3 The scanning transmission electron microscope
66(1)
4.5.4 The scanning tunnelling microscope
67(2)
5 Photography and the Recording of Images
69(22)
5.1 The Origins of the Camera
69(1)
5.2 Recording and Storing Monochrome Images
70(7)
5.2.1 Joseph Nicephore Nicpce
71(1)
5.2.2 Dagucrreotypes
72(1)
5.2.3 William Henry Fox Talbot
73(2)
5.2.4 From the wet collodion process to modern film
75(2)
5.3 The Beginning of Colour Photography
77(6)
5.3.1 Louis Ducos du Hauron
77(3)
5.3.2 The Lippmann process
80(3)
5.4 Modern Colour Photography
83(3)
5.4.1 The autochrome process
83(2)
5.4.2 The modern era of colour photography
85(1)
5.5 The Basic Construction of a Camera
86(3)
5.6 Digital Cameras
89(2)
6 Detecting and Imaging with Infrared Radiation
91(24)
6.1 The Radiation from Hot Bodies
91(4)
6.2 The Detection of Infrared Radiation
95(12)
6.2.1 The effectiveness of infrared and heat detectors
95(3)
6.2.2 Thermocouples and thermopiles
98(3)
6.2.3 Bolometers
101(3)
6.2.4 Golay cells
104(1)
6.2.5 Pyroelectric detectors; intruder alarms
105(2)
6.3 Infrared Imaging
107(8)
6.3.1 A night-vision device
107(4)
6.3.2 Thermography: thermal imaging
111(4)
7 Radar
115(32)
7.1 The Origin of Radar
115(2)
7.2 Determining the Distance
117(1)
7.3 The Basic Requirements of a Radar System
118(1)
7.4 Generators of Radio Frequency Radiation
119(3)
7.4.1 The klystron amplifier
120(1)
7.4.2 The cavity magnetron
121(1)
7.5 Transmitting the Pulses
122(10)
7.5.1 A simple dipole
122(1)
7.5.2 The parabolic reflector
122(3)
7.5.3 Multiple-dipole-array anteunae
125(4)
7.5.4 Phased-array radar
129(3)
7.6 Reception and Presentation
132(2)
7.7 Doppler Radar
134(5)
7.7.1 The Doppler effect
134(2)
7.7.2 Pulsed-Doppler radar
136(3)
7.8 Synthetic Aperture Radar
139(4)
7.8.1 A simple illustration of SAR
140(2)
7.8.2 More complex SAR applications
142(1)
7.9 Other Radar Applications
143(4)
7.9.1 Secondary radar
143(1)
7.9.2 Ground penetrating radar
144(3)
8 Imaging the Universe with Visible and Near-Visible Radiation
147(22)
8.1 Optical Telescopes
147(1)
8.2 Refracting Telescopes
148(2)
8.3 Reflecting Telescopes
150(5)
8.4 Infrared Astronomy
155(3)
8.5 Adaptive Optics
158(11)
8.5.1 The Keck telescopes
161(2)
8.5.2 Flexible mirror systems
163(6)
9 Imaging the Universe with Longer Wavelengths
169(14)
9.1 Observations in the Far Infrared
169(5)
9.1.1 COBE results
172(2)
9.2 Radio Telescopes
174(9)
9.2.1 The beginning of radio astronomy
174(3)
9.2.2 Big-dish radio telescopes
177(2)
9.2.3 Radio interferometers
179(2)
9.2.4 Radio telescope images
181(2)
10 Imaging the Universe with Shorter Wavelengths
183(18)
10.1 Some Aspects of Imaging in the Ultraviolet
183(8)
10.1.1 The International Ultraviolet Explorer
184(3)
10.1.2 The Extreme Ultraviolet Explorer
187(2)
10.1.3 The extreme ultraviolet imaging telescope
189(2)
10.2 X-ray Telescopes
191(2)
10.3 γ-ray Telescopes
193(8)
11 Images of the Earth and Planets
201(24)
11.1 Aerial Archaeology
201(5)
11.2 Imaging Earth
206(14)
11.2.1 Global weather
206(5)
11.2.2 Imaging the Earth; environmental science
211(3)
11.2.3 Making maps
214(6)
11.3 Images of Planets
220(5)
12 Images for Entertainment
225(30)
12.1 Persistence of Vision
225(1)
12.2 Cinematography
226(13)
12.2.1 Some early devices for moving images
227(3)
12.2.2 The beginning of cinematography
230(4)
12.2.3 The introduction of colour
234(5)
12.3 Television
239(16)
12.3.1 Mechanical scanning systems
239(2)
12.3.2 Electronic scanning systems
241(2)
12.3.3 Television viewing with cathode ray tubes
243(4)
12.3.4 Television viewing with liquid crystal displays
247(3)
12.3.5 Television viewing with plasma displays
250(2)
12.3.6 Three dimensional television
252(3)
13 Detection and Imaging with Sound and Vibrations
255(20)
13.1 The Nature of Sound Waves
255(1)
3.2 Animal Echolocation
256(4)
13.3 The Origin of Echolocation Devices
260(1)
13.4 Sonar
261(3)
13.5 Imaging the Interior of the Earth
264(11)
13.5.1 Types of seismic wave
265(1)
13.5.2 The passage of body waves through the Earth
266(6)
13.5.3 Interpretation of seismic wave data
272(2)
13.5.4 Geoprospecting with sound
274(1)
14 Medical Imaging
275(28)
14.1 The Discovery of X-rays
275(2)
14.2 X-ray Generators
277(3)
14.3 Recording a Radiographic Image
280(2)
14.4 Computed Tomography --- CT Scans
282(5)
14.5 Magnetic Resonance Imaging
287(6)
14.6 Imaging with Ultrasound
293(10)
14.6.1 The generation and detection of ultrasound
294(3)
14.6.2 Medical ultrasonic procedures
297(6)
15 Images of Atoms
303(30)
15.1 The Nature of Crystals
303(4)
15.1.1 The shapes of crystals
304(1)
15.1.2 The arrangement of atoms in crystals
305(2)
15.2 The Phenomenon of Diffraction
307(3)
15.2.1 A one-dimensional diffraction grating
307(2)
15.2.2 A two-dimensional diffraction grating
309(1)
15.3 The Beginning of X-ray Crystallography
310(3)
15.4 X-rays for Diffraction Experiments
313(5)
15.5 The Phase Problem in Crystallography
318(4)
15.6 Determining Crystal Structures; Electron-density Images
322(3)
15.7 The Scanning Tunnelling Microscope
325(8)
16 Images of Particles
333(18)
16.1 The Structure of an Atom
334(4)
16.2 Atom-smashing Machines
338(2)
16.3 Many More Particles
340(4)
16.4 Direct Imaging of Particle Tracks
344(7)
16.4.1 Photographic plates
344(1)
16.4.2 The Wilson cloud chamber
345(2)
16.4.3 The bubble chamber
347(4)
Index 351
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