Fundamental physics for probing and imaging:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2006
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Beschreibung für Leser Inhaltsverzeichnis |
| Beschreibung: | XIV, 334 S. Ill., graph. Darst. |
| ISBN: | 019920389X 0199203881 9780199203895 9780199203888 |
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| 245 | 1 | 0 | |a Fundamental physics for probing and imaging |c Wade Allison |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2006 | |
| 300 | |a XIV, 334 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Imagerie (Technique) | |
| 650 | 4 | |a Imagerie acoustique | |
| 650 | 4 | |a Imagerie par résonance magnétique | |
| 650 | 4 | |a Acoustic imaging | |
| 650 | 4 | |a Ionizing radiation | |
| 650 | 4 | |a Magnetic resonance imaging | |
| 650 | 4 | |a Physics | |
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Datensatz im Suchindex
| _version_ | 1804136175518089216 |
|---|---|
| adam_text | Contents
Physics for security
1
1.1
The task
1
1.1.1
Stimulation by fear and the search for security
1
1.1.2
Crucial physics for probing
5
1.1.3
Basic approaches to imaging
9
1.2
Value of images
10
1.2.1
Information from images
11
1.2.2
Comparing modalities
12
1.3
Safety, risk and education
16
1.3.1
Public apprehension of physics
16
1.3.2
Assessing safety
17
Magnetism and magnetic resonance
21
2.1
An elemental magnetic
dipole
21
2.1.1
Laws of
electromagnetism
21
2.1.2
Current loop as a magnetic
dipole
22
2.1.3
The Larmor frequency
25
2.2
Magnetic materials
27
2.2.1
Magnetisation and microscopic dipoles
27
2.2.2
Hyperfme coupling in B-field
31
2.3
Electron spin resonance
34
2.3.1
Magnetic resonance
34
2.3.2
Detection and application
36
2.4
Nuclear magnetic resonance
37
2.4.1
Characteristics
38
2.4.2
Local field variations
39
2.4.3
Relaxation
42
2.4.4
Elements of an experiment
44
2.4.5
Measurement of relaxation times
45
2.5
Magnetic field measurement
47
2.5.1
Earth s field
48
2.5.2
Measurement by electromagnetic induction
48
2.5.3
Measurement by magnetic resonance
50
Interactions of ionising radiation
55
3.1
Sources and phenomenology
55
3.1.1
Sources of radiation
55
3.1.2
Imaging with radiation
56
3.1.3
Single and multiple collisions
57
xii Contents
3.2
Kinematics of primary collisions
58
3.2.1
Kinematics and dynamics
59
3.2.2
Energy and momentum transfer
59
3.2.3
Recoil kinematics
60
3.2.4
Applications of recoil kinematics
61
3.3
Electromagnetic radiation in matter
65
3.3.1
Compton scattering
65
3.3.2
Photoabsorption
66
3.3.3
Pair production
68
3.4
Elastic scattering collisions of charged particles
68
3.4.1
Dynamics of scattering by a point charge
f
69
3.4.2
Cross section for energy loss by recoil
73
3.5
Multiple collisions of charged particles
73
3.5.1
Cumulative energy loss of a charged particle
74
3.5.2
Range of charged particles
77
3.5.3
Multiple Coulomb scattering
78
3.6
Radiative energy loss by electrons
81
3.6.1
Classical, semi-classical and QED electromagnetism
81
3.6.2 Weissäcker-Williams
virtual photon picture
81
3.6.3
Radiation length
82
Mechanical waves and properties of matter
85
4.1
Stress, strain and waves in homogeneous materials
85
4.1.1
Relative displacements and internal forces
85
4.1.2
Elastic fluids
87
4.1.3
Longitudinal waves in fluids
88
4.1.4
Stress and strain in solids
f
92
4.1.5
Polarisation of waves in solids
j
96
4.2
Reflection and transmission of waves in bounded media
99
4.2.1
Reflection and
transmission
at normal incidence
99
4.2.2
Relative directions of waves at boundaries
f
100
4.2.3
Relative amplitudes of waves at boundaries
f
103
4.3
Surface waves and normal modes 111
4.3.1
General surface waves
113
4.3.2
Rayleigh waves on free solid surfaces
113
4.3.3
Waves at fluid-fluid interfaces
115
4.3.4
Normal mode oscillations
119
4.4
Structured media
120
4.4.1
Interatomic potential wells
121
4.4.2
Linear absorption
126
Information and data analysis
131
5.1
Conservation of information
131
5.2
Linear transformations
135
5.2.1
Fourier transforms
135
5.2.2
Wavelet transforms
142
5.3
Analysis of data using models
143
5.3.1
General features
144
Contents xiii
5.3.2
Least squares and minimum
χ2
methods
145
5.3.3
Maximum likelihood method
149
Analysis and damage by irradiation
157
6.1
Radiation detectors
157
6.1.1
Photons and
ionisation
generated by irradiation
157
6.1.2
Task of radiation detection
159
6.1.3
Charged particle detectors
161
6.1.4
Electromagnetic radiation detectors
165
6.2
Analysis methods for elements and isotopes
168
6.2.1
Element concentration analysis
169
6.2.2
Isotope concentration analysis
172
6.2.3
Radiation damage analysis
177
6.3
Radiation exposure of the population at large
179
6.3.1
Measurement of human radiation exposure
179
6.3.2
Sources of general radiation exposure
182
6.4
Radiation damage to biological tissue
187
6.4.1
Hierarchy of damage in space and time
187
6.4.2
Survival and recovery data
189
6.5
Nuclear energy and applications
192
6.5.1
Fission and fusion
192
6.5.2
Weapons and the environment
193
6.5.3
Nuclear power and accidents
199
Imaging with magnetic resonance
207
7.1
Magnetic resonance imaging
207
7.1.1
Spatial encoding with gradients
207
7.1.2
Artefacts and imperfections in the image
211
7.1.3
Pulse sequences
213
7.1.4
Multiple detector coils
218
7.2
Functional magnetic resonance imaging
221
7.2.1
Functional imaging
221
7.2.2
Flow and diffusion
223
7.2.3
Spectroscopie
imaging
225
7.2.4
Risks and limitations
227
Medical imaging and therapy with ionising radiation
233
8.1
Projected X-ray absorption images
233
8.1.1
X-ray sources and detectors
233
8.1.2
Optimisation of images
236
8.1.3
Use of passive contrast agents
239
8.2
Computed tomography with X-rays
241
8.2.1
Image reconstruction in space
241
8.2.2
Patient exposure and image quality
245
8.3
Functional imaging with radioisotopes
246
8.3.1
Single photon emission computed tomography
246
8.3.2
Resolution and radiation exposure limitations
252
8.3.3
Positron emission tomography
252
xiv Contents
8.4
Radiotherapy
256
8.4.1 Irradiation
of the tumour volume
256
8.4.2
Sources of radiotherapy
257
8.4.3
Treatment planning and delivery of RT
259
8.4.4
Exploitation of non-linear effects
262
9
Ultrasound for imaging and therapy
267
9.1
Imaging with ultrasound
267
9.1.1
Methods of imaging
267
9.1.2
Material testing and medical imaging
270
9.2
Generation of ultrasound beams
272
9.2.1
Ultrasound transducers
272
9.2.2
Ultrasound beams
276
9.2.3
Beam quality and related artefacts
278
9.3
Scattering in inhomogeneous materials
280
9.3.1
A single small inhomogeneity
281
9.3.2
Regions of inhomogeneity
284
9.3.3
Measurement of motion using the
Doppler
effect
287
9.4
Non-linear behaviour
290
9.4.1
Materials under non-linear conditions
290
9.4.2
Harmonic imaging
294
9.4.3
Constituent model of non-linearity
297
9.4.4
Progressive non-linear waves
300
9.4.5
Absorption of high intensity ultrasound
301
10
Forward look and conclusions
307
10.1
Developments in imaging
307
10.2
Revolutions in cancer therapy
312
10.3
Safety concerns in ultrasound
313
10.4
Rethinking the safety of ionising radiation
315
10.5
New ideas, old truths and education
318
Appendices
A Conventions, nomenclature and units
321
В
Glossary of terms and abbreviations
323
С
Hints and answers to selected questions
327
Index
331
|
| adam_txt |
Contents
Physics for security
1
1.1
The task
1
1.1.1
Stimulation by fear and the search for security
1
1.1.2
Crucial physics for probing
5
1.1.3
Basic approaches to imaging
9
1.2
Value of images
10
1.2.1
Information from images
11
1.2.2
Comparing modalities
12
1.3
Safety, risk and education
16
1.3.1
Public apprehension of physics
16
1.3.2
Assessing safety
17
Magnetism and magnetic resonance
21
2.1
An elemental magnetic
dipole
21
2.1.1
Laws of
electromagnetism
21
2.1.2
Current loop as a magnetic
dipole
22
2.1.3
The Larmor frequency
25
2.2
Magnetic materials
27
2.2.1
Magnetisation and microscopic dipoles
27
2.2.2
Hyperfme coupling in B-field
31
2.3
Electron spin resonance
34
2.3.1
Magnetic resonance
34
2.3.2
Detection and application
36
2.4
Nuclear magnetic resonance
37
2.4.1
Characteristics
38
2.4.2
Local field variations
39
2.4.3
Relaxation
42
2.4.4
Elements of an experiment
44
2.4.5
Measurement of relaxation times
45
2.5
Magnetic field measurement
47
2.5.1
Earth's field
48
2.5.2
Measurement by electromagnetic induction
48
2.5.3
Measurement by magnetic resonance
50
Interactions of ionising radiation
55
3.1
Sources and phenomenology
55
3.1.1
Sources of radiation
55
3.1.2
Imaging with radiation
56
3.1.3
Single and multiple collisions
57
xii Contents
3.2
Kinematics of primary collisions
58
3.2.1
Kinematics and dynamics
59
3.2.2
Energy and momentum transfer
59
3.2.3
Recoil kinematics
60
3.2.4
Applications of recoil kinematics
61
3.3
Electromagnetic radiation in matter
65
3.3.1
Compton scattering
65
3.3.2
Photoabsorption
66
3.3.3
Pair production
68
3.4
Elastic scattering collisions of charged particles
68
3.4.1
Dynamics of scattering by a point charge
f
69
3.4.2
Cross section for energy loss by recoil
73
3.5
Multiple collisions of charged particles
73
3.5.1
Cumulative energy loss of a charged particle
74
3.5.2
Range of charged particles
77
3.5.3
Multiple Coulomb scattering
78
3.6
Radiative energy loss by electrons
81
3.6.1
Classical, semi-classical and QED electromagnetism
81
3.6.2 Weissäcker-Williams
virtual photon picture
81
3.6.3
Radiation length
82
Mechanical waves and properties of matter
85
4.1
Stress, strain and waves in homogeneous materials
85
4.1.1
Relative displacements and internal forces
85
4.1.2
Elastic fluids
87
4.1.3
Longitudinal waves in fluids
88
4.1.4
Stress and strain in solids
f
92
4.1.5
Polarisation of waves in solids
j
96
4.2
Reflection and transmission of waves in bounded media
99
4.2.1
Reflection and
transmission
at normal incidence
99
4.2.2
Relative directions of waves at boundaries
f
100
4.2.3
Relative amplitudes of waves at boundaries
f
103
4.3
Surface waves and normal modes 111
4.3.1
General surface waves
113
4.3.2
Rayleigh waves on free solid surfaces
113
4.3.3
Waves at fluid-fluid interfaces
115
4.3.4
Normal mode oscillations
119
4.4
Structured media
120
4.4.1
Interatomic potential wells
121
4.4.2
Linear absorption
126
Information and data analysis
131
5.1
Conservation of information
131
5.2
Linear transformations
135
5.2.1
Fourier transforms
135
5.2.2
Wavelet transforms
142
5.3
Analysis of data using models
143
5.3.1
General features
144
Contents xiii
5.3.2
Least squares and minimum
χ2
methods
145
5.3.3
Maximum likelihood method
149
Analysis and damage by irradiation
157
6.1
Radiation detectors
157
6.1.1
Photons and
ionisation
generated by irradiation
157
6.1.2
Task of radiation detection
159
6.1.3
Charged particle detectors
161
6.1.4
Electromagnetic radiation detectors
165
6.2
Analysis methods for elements and isotopes
168
6.2.1
Element concentration analysis
169
6.2.2
Isotope concentration analysis
172
6.2.3
Radiation damage analysis
177
6.3
Radiation exposure of the population at large
179
6.3.1
Measurement of human radiation exposure
179
6.3.2
Sources of general radiation exposure
182
6.4
Radiation damage to biological tissue
187
6.4.1
Hierarchy of damage in space and time
187
6.4.2
Survival and recovery data
189
6.5
Nuclear energy and applications
192
6.5.1
Fission and fusion
192
6.5.2
Weapons and the environment
193
6.5.3
Nuclear power and accidents
199
Imaging with magnetic resonance
207
7.1
Magnetic resonance imaging
207
7.1.1
Spatial encoding with gradients
207
7.1.2
Artefacts and imperfections in the image
211
7.1.3
Pulse sequences
213
7.1.4
Multiple detector coils
218
7.2
Functional magnetic resonance imaging
221
7.2.1
Functional imaging
221
7.2.2
Flow and diffusion
223
7.2.3
Spectroscopie
imaging
225
7.2.4
Risks and limitations
227
Medical imaging and therapy with ionising radiation
233
8.1
Projected X-ray absorption images
233
8.1.1
X-ray sources and detectors
233
8.1.2
Optimisation of images
236
8.1.3
Use of passive contrast agents
239
8.2
Computed tomography with X-rays
241
8.2.1
Image reconstruction in space
241
8.2.2
Patient exposure and image quality
245
8.3
Functional imaging with radioisotopes
246
8.3.1
Single photon emission computed tomography
246
8.3.2
Resolution and radiation exposure limitations
252
8.3.3
Positron emission tomography
252
xiv Contents
8.4
Radiotherapy
256
8.4.1 Irradiation
of the tumour volume
256
8.4.2
Sources of radiotherapy
257
8.4.3
Treatment planning and delivery of RT
259
8.4.4
Exploitation of non-linear effects
262
9
Ultrasound for imaging and therapy
267
9.1
Imaging with ultrasound
267
9.1.1
Methods of imaging
267
9.1.2
Material testing and medical imaging
270
9.2
Generation of ultrasound beams
272
9.2.1
Ultrasound transducers
272
9.2.2
Ultrasound beams
276
9.2.3
Beam quality and related artefacts
278
9.3
Scattering in inhomogeneous materials
280
9.3.1
A single small inhomogeneity
281
9.3.2
Regions of inhomogeneity
284
9.3.3
Measurement of motion using the
Doppler
effect
287
9.4
Non-linear behaviour
290
9.4.1
Materials under non-linear conditions
290
9.4.2
Harmonic imaging
294
9.4.3
Constituent model of non-linearity
297
9.4.4
Progressive non-linear waves
300
9.4.5
Absorption of high intensity ultrasound
301
10
Forward look and conclusions
307
10.1
Developments in imaging
307
10.2
Revolutions in cancer therapy
312
10.3
Safety concerns in ultrasound
313
10.4
Rethinking the safety of ionising radiation
315
10.5
New ideas, old truths and education
318
Appendices
A Conventions, nomenclature and units
321
В
Glossary of terms and abbreviations
323
С
Hints and answers to selected questions
327
Index
331 |
| any_adam_object | 1 |
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| author | Allison, Wade |
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| id | DE-604.BV022199516 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:23:57Z |
| indexdate | 2024-07-09T20:52:13Z |
| institution | BVB |
| isbn | 019920389X 0199203881 9780199203895 9780199203888 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015410972 |
| oclc_num | 71163803 |
| open_access_boolean | |
| owner | DE-20 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-634 |
| owner_facet | DE-20 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-634 |
| physical | XIV, 334 S. Ill., graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spelling | Allison, Wade Verfasser aut Fundamental physics for probing and imaging Wade Allison 1. publ. Oxford [u.a.] Oxford Univ. Press 2006 XIV, 334 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Imagerie (Technique) Imagerie acoustique Imagerie par résonance magnétique Acoustic imaging Ionizing radiation Magnetic resonance imaging Physics Physik (DE-588)4045956-1 gnd rswk-swf Bildgebendes Verfahren (DE-588)4006617-4 gnd rswk-swf Bildgebendes Verfahren (DE-588)4006617-4 s Physik (DE-588)4045956-1 s DE-604 http://www.loc.gov/catdir/enhancements/fy0725/2007274132-t.html Inhaltsverzeichnis http://www.loc.gov/catdir/enhancements/fy0725/2007274132-d.html Beschreibung für Leser Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015410972&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Allison, Wade Fundamental physics for probing and imaging Imagerie (Technique) Imagerie acoustique Imagerie par résonance magnétique Acoustic imaging Ionizing radiation Magnetic resonance imaging Physics Physik (DE-588)4045956-1 gnd Bildgebendes Verfahren (DE-588)4006617-4 gnd |
| subject_GND | (DE-588)4045956-1 (DE-588)4006617-4 |
| title | Fundamental physics for probing and imaging |
| title_auth | Fundamental physics for probing and imaging |
| title_exact_search | Fundamental physics for probing and imaging |
| title_exact_search_txtP | Fundamental physics for probing and imaging |
| title_full | Fundamental physics for probing and imaging Wade Allison |
| title_fullStr | Fundamental physics for probing and imaging Wade Allison |
| title_full_unstemmed | Fundamental physics for probing and imaging Wade Allison |
| title_short | Fundamental physics for probing and imaging |
| title_sort | fundamental physics for probing and imaging |
| topic | Imagerie (Technique) Imagerie acoustique Imagerie par résonance magnétique Acoustic imaging Ionizing radiation Magnetic resonance imaging Physics Physik (DE-588)4045956-1 gnd Bildgebendes Verfahren (DE-588)4006617-4 gnd |
| topic_facet | Imagerie (Technique) Imagerie acoustique Imagerie par résonance magnétique Acoustic imaging Ionizing radiation Magnetic resonance imaging Physics Physik Bildgebendes Verfahren |
| url | http://www.loc.gov/catdir/enhancements/fy0725/2007274132-t.html http://www.loc.gov/catdir/enhancements/fy0725/2007274132-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015410972&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT allisonwade fundamentalphysicsforprobingandimaging |
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