Electrical properties of materials
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| Sprache: | English |
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Oxford Univ. Press
2014
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| Ausgabe: | 9. ed. |
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| 100 | 1 | |a Solymar, Laszlo |d 1930- |e Verfasser |0 (DE-588)142249246 |4 aut | |
| 245 | 1 | 0 | |a Electrical properties of materials |c L. Solymar ; D. Walsh ; R. R. A. Syms |
| 250 | |a 9. ed. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2014 | |
| 300 | |a XVI, 484 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 700 | 1 | |a Walsh, Donald |e Verfasser |0 (DE-588)142249416 |4 aut | |
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| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-027152006 | |
Datensatz im Suchindex
| _version_ | 1819715524223827968 |
|---|---|
| adam_text | Contents
Data
on specific materials in text
xii
Introduction
xv
1
The electron as a particle
1.1
Introduction
1
1.2
The effect of an electric field-conductivity and Ohm s law
2
1.3
The hydrodynamic model of electron flow
4
1.4
The Hall effect
5
1.5
Electromagnetic waves in solids
6
Ì
.6
Waves in the presence of an applied magnetic field: cyclotron resonance
13
1.7
Plasma waves
16
1.8
Johnson noise
19
1.9
Heat
21
Exercises
23
2
The electron as a wave
2.1
Introduction
25
2.2
The electron microscope
28
2.3
Some properties of waves
29
2.4
Applications to electrons
31
2.5
Two analogies
33
Exercises
34
3
The electron
3.1
Introduction
3.2
Schrodingers equation
3.3
Solutions of Schrodinger s equation
3.4
The electron as a wave
3.5
The electron as a particle
3.6
The electron meeting a potential barrier
3.7
Two analogies
3.8
The electron in a potential well
3.9
The potential well with a rigid wall
3.10
The uncertainty relationship
3.11
Philosophical implications
Exercises
36
38
39
40
41
41
44
45
47
47
48
50
vi
Contents
4
The hydrogen atom and the periodic table
4.1
The hydrogen atom
53
4.2
Quantum numbers
58
4.3
Electron spin and Pauli s exclusion principle
59
4.4
The periodic table
59
Exercises
64
5
Bonds
5.1
Introduction
5.2
General mechanical properties of bonds
5.3
Bond types
5.3.1
Ionic bonds
5.3.2
Metallic bonds
5.3.3
The covalent bond
5.3.4
The van
der Waals
bond
5.3.5
Mixed bonds
5.3.6
Carbon again
5.4
Feynman s coupled mode approach
5.5
Nuclear forces
5.6
The hydrogen molecule
5.7
An analogy
66
67
69
69
70
70
73
74
74
75
80
81
82
Exercises
82
6
The free electron theory of metals
6.1
Free electrons
84
6.2
The density of states and the Fermi-Dirac distribution
85
6.3
The specific heat of electrons
88
6.4
The work function
89
6.5
Thermionic emission
89
6.6
The Schottky effect
92
6.7
Field emission
95
6.8
The field-emission microscope
95
6.9
The photoelectric effect
97
6.10
Quartz-halogen lamps
97
6.11
The junction between two metals
98
Exercises
99
7
The band theory of solids
7.1
Introduction
101
7.2
The Kronig-Penney model
102
7.3
The Ziman model
106
7.4
The Feynman model
109
Contents
vii
7.5
The effective mass
112
7.6
The effective number of free electrons
114
7.7
The number of possible states per band
Π
5
7.8
Metals and insulators
117
7.9
Holes
117
7.10
Divalent metals
119
7.11
Finite temperatures
120
7.12
Concluding remarks
121
Exercises
122
8
Semiconductors
8.1
Introduction
123
8.2
Intrinsic semiconductors
123
8.3
Extrinsic semiconductors
128
8.4
Scattering
132
8.5
A relationship between electron and hole densities
134
8.6
Ill-V and SI-VI compounds
136
8.7
Non-equilibrium processes
140
8.8
Real semiconductors
141
8.9
Amorphous semiconductors
143
8.10
Measurement of semiconductor properties
143
8.10.1
Mobility
143
8.10.2
Hall coefficient
146
8.10.3
Effective mass
146
8.10.4
Energy gap
147
8.10.5
Carrier lifetime
151
8.11
Preparation of pure and controlled-impurity single-crystal semiconductors
151
8.11.1
Crystal growth from the melt
151
8.11.2
Zone refining
152
8.11.3
Modern methods of silicon purification
154
8.11.4
Epitaxial growth
154
8.Π.5
Molecular beam epitaxy
156
8.11.6
Metal-organic chemical vapour deposition
156
8.11.7
Hydride vapour phase epitaxy (HVPE) for nitride devices
157
Exercises
158
9
Principles of semiconductor devices
9.1
Introduction
161
9.2
The
p
-η
junction in equilibrium
161
9.3
Rectification
166
9.4
Injection
168
9.5
junction capacity
170
9.6
The transistor
171
9.7
Metal-semiconductor junctions
176
9.8
The role of surface states; real metal-semiconductor junctions
178
9.9
Metal-insulator-semiconductor junctions
180
9.10
The tunnel diode
183
9.11
The backward diode
186
9.12
The Zener diode and the avalanche diode
9.12.1
Zener breakdown
9.12.2
Avalanche breakdown
9.13
Varactor diodes
9.14
Field-effect transistors
9.15
Heterostructures
9.16
Charge-coupled devices
9.17
Silicon controlled rectifier
9.18
The Gunn effect
9.19
Strain gauges
9.20
Measurement of magnetic field by the Hall effect
9.21
Gas sensors
9.22
Microelectronic circuits
9.23
Plasma etching
9.24
Recent techniques for overcoming limitations
9.25
Building in the third dimension
9.26
Microelectro-mechanical systems (MEMS)
9.26.1
A movable mirror
9.26.2
A mass spectrometer on a chip
9.27
Nanoelectronics
9.28
Social implications
viii
Contents
186
187
187
188
189
194
198
200
201
204
205
205
206
210
212
213
215
215
216
218
222
Exercises
223
10
Dielectric materials
10.1
Introduction
225
10.2
Macroscopic approach
225
10.3
Microscopic approach
226
10.4
Types of polarization
227
10.5
The complex dielectric constant and the refractive index
228
10.6
Frequency response
229
10.7
Anomalous dispersion
230
10.8
Polarand
non-polar materials
231
10.9
The Debye equation
233
10.10
The effective field
234
10.11
Acoustic waves
236
10.12
Dielectric breakdown
240
10.12.1
Intrinsic breakdown
240
10.12.2
Thermal breakdown
240
10.12.3
Discharge breakdown
241
10.13
Piezoelectricity, pyroelectricity, and ferroeiectricity
241
10.13.1
Piezoelectricity
241
10.13.2
Pyroelectricity
247
10.13.3
Ferroelectrics
248
10.14
Interaction of optical phonons with drifting electrons
249
10.15
Optical fibres
250
10.16
The Xerox process
252
10.17
Liquid crystals
252
10.18
Dielectrophoresis
254
Exercises
256
Contents ix
11
Magnetic materials
ТІЛ
Introduction
259
11.2
Macroscopic approach
260
11.3
Microscopic theory (phenomenological)
260
11.4
Domains and the hysteresis curve
264
П.5
Soft magnetic materials
268
11.6
Hard magnetic materials (permanent magnets)
270
11.7
Microscopic theory (quantum-mechanical)
273
П.7.1
The Stem-Gerlach experiment
278
11.7.2
Paramagnetism
278
11.7.3
Paramagnetic solids
280
11.7.4
Antiferromagnetism
281
11.7.5
Ferromagnetism
281
П.7.6
Fernmagnetism
282
11.7.7
Garnets
282
11.7.8
Helimagnetism
282
11.8
Magnetic resonance
282
11.8.1
Paramagnetic resonance
282
11.8.2
Electron spin resonance
283
11.8.3
Ferromagnetic, antiferromagnetic, and ferrimagnetic resonance
283
11.8.4
Nuclear magnetic resonance
283
11.8.5
Cyclotron resonance
284
11.9
The quantum Hall effect
284
11.10 Magnetoresistance 286
11.11
Spintronics
287
11.11.1
Spin current
287
11.11.2
Spin tunnelling
289
11.11.3
Spin waves and
magnons
290
11.11.4
Spin Hall effect and its inverse
290
11.11.5
Spin and light
290
11.11.6
Spin transfer torque
291
11.12
Some applications
291
11.12.1
Isolators
291
11.12.2
Sensors
292
11.12.3
Magnetic read-heads
292
11.12.4
Electric motors
293
Exercises
293
12
Lasers
12.1
Equilibrium
295
12.2
Two-state systems
295
12.3
Lineshape function
299
12.4
Absorption and amplification
301
12.5
Resonators and conditions of oscillation
301
12.6
Some practical laser systems
302
12.6.1
Solid state lasers
303
12.6.2
The gaseous discharge laser
304
12.6.3
Dye lasers
305
12.6.4
Gas-dynamic lasers
306
12.6.5
Exci
mer
lasers
307
12.6.6
Chemical lasers
307
Contents
307
307
312
316
318
319
319
320
321
321
321
322
323
324
326
326
327
327
327
328
328
328
328
328
328
328
329
329
329
330
330
331
331
332
334
12.14
The atom laser
335
Exercises
336
13 Optoelectronics
13.1
Introduction
338
13.2 Light
detectors
339
13.3 Light
emitting diodes
(LEDs) 341
13.4
Electro-optic,
photorefractive,
and nonlinear materials
345
13.5
Volume holography and phase conjugation
346
13.6
Acousto-optic interaction
351
13.7
Integrated optics
353
13.7.1
Waveguides
354
13.7.2
Phase shifter
354
13.7.3
Directional coupler
355
13.7.4
Filters
357
13.8
Spatial light modulators
357
13.9
Nonlinear Fabry-Perot cavities
359
13.10
Optical switching
362
12.7
Semiconductor lasers
12.7.1
Fundamentals
12.7.2
Wells, wires, and dots
12.7.3
Bandgap
engineering
12.7.4
Quantum cascade lasers
12.8
Laser modes and control techniques
12.8.1
Transverse modes
12.8.2
Axial modes
12.8.3
Q
switching
12.8.4
Cavity dumping
12.8.5
Mode locking
12.9
Parametric oscillators
12.10
Optical fibre amplifiers
12.11
Masers
12.12
Noise
12.13
Applications
12.13.1
Nonlinear optics
12.13.2
Spectroscopy
12.13.3
Photochemistry
12.13.4
Study of rapid events
12.13.5
Plasma diagnostics
12.13.6
Plasma heating
12.13.7
Acoustics
12.13.8
Genetics
12.13.9
Metrology
12.13.10
Manipulation of atoms by light
12.13.11
Optical radar
12.13.12
Optical discs
12.13.13
Medical applications
12.13.14
Machining
12.13.15
Sensors
12.13.16
Communications
12.13.17
Nuclear applications
12.13.18
Holography
12.13.19
Raman scattering
Contents xi
13.11
Electro-absorption in quantum well structures
364
364
365
365
367
369
13.11.1
Excitons
13.11.2
Excitons
in quantum wells
13.11.3
Electro-absorption
13.11.4
Applications
Exercises
14
Superconductivity
14.1
Introduction
14.2
The effect of a magnetic field
14.2.1
The critical magnetic field
14.2.2
The Meissner effect
14.3
Microscopic theory
14.4
Thermodynamical treatment
14.5
Surface energy
14.6
The Landau-Ginzburg theory
14.7
The energy gap
14.8
Some applications
14.8.1
High-field magnets
14.8.2
Switches and memory elements
14.8.3
Magnetometers
14.8.4
Metrology
14.8.5
Suspension systems and motors
14.8.6
Radiation detectors
14.8.7
Heat valves
14.9
High-
Го
superconductors
14.10
New superconductors
Exercises
371
373
373
374
375
376
381
382
389
393
393
394
394
395
395
395
396
396
401
403
15
Artificial materials or metamaterials
15.1
Introduction
404
15.2
Natural and artificial materials
405
15.3
Photonic
bandgap
materials
407
15.4
Equivalent plasma frequency of a wire medium
408
15.5
Resonant elements for metamaterials
410
15.6
Polarizability of a current-carrying resonant loop
411
15.7
Effective permeability
412
15.8
Effect of negative material constants
414
15.9
The perfect lens
417
15.10
Detectors for magnetic resonance imaging
422
Epilogue
424
Appendix I: Organic semiconductors
427
Appendix II: Nobel laureates
434
Appendix III: Physical constants
436
Appendix IV: Variational calculus. Derivation of
Eulers
equation
438
Appendix V: Thermoelectricity
440
xii Contents
Appendix
VI: Principles of the operation of computer memories
444
Appendix
VII:
Medical imaging
463
Appendix
VIII:
Suggestions for further reading
471
Answers to exercises
474
Index
477
A classic text in the field, providing a readable and accessible guide for students
of electrical and electronic engineering.
•
Fundamentals of electrical properties of materials are illustrated and put
into context with contemporary applications in engineering.
•
Includes problems and worked solutions to support student learning.
•
Mathematical content is kept to a minimum, allowing the reader to focus
on the subject.
ideal for undergraduates, the book is also an invaluable reference for graduate
students and others wishing to explore this rapidly expanding field.
Updated sections on semiconductor technology, semiconductor devices,
nanoelectronics, plasma etching* ferroelectric materials, and spintronics.
Covers new applications in dielectrophoresis, Raman spectroscopy,
thermoelectricity, and pyroelectricity.
Two new appendices on memory elements and medical imaging.
|
| any_adam_object | 1 |
| author | Solymar, Laszlo 1930- Walsh, Donald Syms, Richard R. A. 1958- |
| author_GND | (DE-588)142249246 (DE-588)142249416 (DE-588)17239239X |
| author_facet | Solymar, Laszlo 1930- Walsh, Donald Syms, Richard R. A. 1958- |
| author_role | aut aut aut |
| author_sort | Solymar, Laszlo 1930- |
| author_variant | l s ls d w dw r r a s rra rras |
| building | Verbundindex |
| bvnumber | BV041704670 |
| classification_rvk | UP 1000 UP 4500 ZM 3300 ZN 3400 |
| ctrlnum | (OCoLC)873540724 (DE-599)OBVAC11227362 |
| dewey-full | 620.11297 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.11297 |
| dewey-search | 620.11297 |
| dewey-sort | 3620.11297 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften / Fertigungstechnik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 9. ed. |
| format | Book |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV041704670 |
| illustrated | Illustrated |
| indexdate | 2024-12-24T04:03:22Z |
| institution | BVB |
| isbn | 9780198702788 9780198702771 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027152006 |
| oclc_num | 873540724 |
| open_access_boolean | |
| owner | DE-19 DE-BY-UBM DE-11 DE-898 DE-BY-UBR DE-29T DE-355 DE-BY-UBR DE-20 DE-83 |
| owner_facet | DE-19 DE-BY-UBM DE-11 DE-898 DE-BY-UBR DE-29T DE-355 DE-BY-UBR DE-20 DE-83 |
| physical | XVI, 484 S. Ill., graph. Darst. |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spellingShingle | Solymar, Laszlo 1930- Walsh, Donald Syms, Richard R. A. 1958- Electrical properties of materials Festkörper (DE-588)4016918-2 gnd Elektronische Eigenschaft (DE-588)4235053-0 gnd Werkstoff (DE-588)4065579-9 gnd Elektrotechnik (DE-588)4014390-9 gnd Elektrische Eigenschaft (DE-588)4193812-4 gnd |
| subject_GND | (DE-588)4016918-2 (DE-588)4235053-0 (DE-588)4065579-9 (DE-588)4014390-9 (DE-588)4193812-4 (DE-588)4123623-3 |
| title | Electrical properties of materials |
| title_auth | Electrical properties of materials |
| title_exact_search | Electrical properties of materials |
| title_full | Electrical properties of materials L. Solymar ; D. Walsh ; R. R. A. Syms |
| title_fullStr | Electrical properties of materials L. Solymar ; D. Walsh ; R. R. A. Syms |
| title_full_unstemmed | Electrical properties of materials L. Solymar ; D. Walsh ; R. R. A. Syms |
| title_short | Electrical properties of materials |
| title_sort | electrical properties of materials |
| topic | Festkörper (DE-588)4016918-2 gnd Elektronische Eigenschaft (DE-588)4235053-0 gnd Werkstoff (DE-588)4065579-9 gnd Elektrotechnik (DE-588)4014390-9 gnd Elektrische Eigenschaft (DE-588)4193812-4 gnd |
| topic_facet | Festkörper Elektronische Eigenschaft Werkstoff Elektrotechnik Elektrische Eigenschaft Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027152006&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027152006&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT solymarlaszlo electricalpropertiesofmaterials AT walshdonald electricalpropertiesofmaterials AT symsrichardra electricalpropertiesofmaterials |