Ferroic materials for smart systems: from fundamentals to device applications
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim, Germany
Wiley-VCH
[2020]
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| Schlagworte: | |
| Online-Zugang: | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34476-5/ Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | ix, 252 Seiten Illustrationen, Diagramme 25 cm, 674 g |
| ISBN: | 9783527344765 |
Internformat
MARC
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| 100 | 1 | |a Dai, Jiyan |e Verfasser |0 (DE-588)1206551941 |4 aut | |
| 245 | 1 | 0 | |a Ferroic materials for smart systems |b from fundamentals to device applications |c Jiyan Dai |
| 264 | 1 | |a Weinheim, Germany |b Wiley-VCH |c [2020] | |
| 300 | |a ix, 252 Seiten |b Illustrationen, Diagramme |c 25 cm, 674 g | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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| 653 | |a Components & Devices | ||
| 653 | |a Electrical & Electronics Engineering | ||
| 653 | |a Elektrotechnik u. Elektronik | ||
| 653 | |a Festkörperphysik | ||
| 653 | |a Komponenten u. Bauelemente | ||
| 653 | |a Materialeigenschaften | ||
| 653 | |a Materials Science | ||
| 653 | |a Materialwissenschaften | ||
| 653 | |a Physics | ||
| 653 | |a Physik | ||
| 653 | |a Properties of Materials | ||
| 653 | |a Solid State Physics | ||
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| 653 | |a PH60: Festkörperphysik | ||
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Datensatz im Suchindex
| _version_ | 1804181565966647296 |
|---|---|
| adam_text | CONTENTS
1 GENERAL INTRODUCTION: SMART MATERIALS, SENSORS, AND
ACTUATORS I
1.1 SMART SYSTEM 2
1.2 DEVICE APPLICATION OF FERROELECTRIC MATERIALS 5
1.2.1 PIEZOELECTRIC DEVICE APPLICATIONS 6
1.2.2 INFRARED SENSOR 7
1.2.3 FERROELECTRIC RAM (FERAM) 8
1.3 DEVICE APPLICATION OF FERROMAGNETIC MATERIALS 9
1.3.1 SPIN-TRANSFER TORQUE MEMORY 9
1.3.2 MAGNETIC FIELD SENSOR BASED ON MULTIFERROIC DEVICE 9
1.4 FERROELASTIC MATERIAL AND DEVICE APPLICATION 10
1.5 SCOPE OF THIS BOOK 12
REFERENCES 13
2 INTRODUCTION TO FERROELECTRICS 15
2.1 WHAT IS FERROELECTRICS? 15
2.1.1 P-E LOOP 15
2.1.2 RELATIONSHIPS BETWEEN DIELECTRIC, PIEZOELECTRIC, PYROELECTRIC, AND
FERROELECTRIC 16
2.1.2.1 FERROELECTRIC-DIELECTRIC 16
2.1.2.2 FERROELECTRIC-PIEZOELECTRIC 17
2.1.2.3 FERROELECTRIC-PYROELECTRIC 18
2.2 ORIGIN OF FERROELECTRICS 18
2.2.1 STRUCTURE-INDUCED PHASE CHANGE FROM PARAELECTRIC TO
FERROELECTRIC 18
2.2.2 SOFT PHONON MODE 19
2.3 THEORY OF FERROELECTRIC PHASE TRANSITION 21
2.3.1 LANDAU FREE ENERGY AND CURIE-WEISS LAW 21
2.3.2 LANDAU THEORY OF FIRST-ORDER PHASE TRANSITION 23
2.3.3 LANDAU THEORY OF A SECOND-ORDER PHASE TRANSITION 26
2.4 FERROELECTRIC DOMAINS AND DOMAIN SWITCHING 28
2.4.1 DOMAIN STRUCTURE 28
2.4.2 FERROELECTRIC SWITCHING 28
2.5 FERROELECTRIC MATERIALS 29
BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/1193020441
VI CONTENTS
2.5.1 FROM BATIOS TO SRTI03 29
2.5.2 FROM PBTI03 TO PBZROS 32
2.5.3 ANTIFERROELECTRIC PBZR03 33
2.5.3.1 PB(ZRX TIL_X)03 (PZT) 35
2.5.4 RELAXOR FERROELECTRICS 36
2.5.4.1 RELAXOR FERROELECTRICS: PMN-#PT SINGLE CRYSTAL 37
2.5A.2 POLAR NANO REGIONS 38
2.5.4.3 MORPHOTROPIC PHASE BOUNDARY (MPB) OF PMN-PT CRYSTAL 40
2.6 FERROELECTRIC DOMAIN AND PHASE FIELD CALCULATION 41
REFERENCES 42
3 DEVICE APPLICATIONS OF FERROELECTRICS
47
3.1 FERROELECTRIC RANDOM-ACCESS MEMORY 47
3.2 FERROELECTRIC TUNNELING NON-VOLATILE MEMORY 50
3.2.1 TUNNELING MODELS 51
3.2.2 METAL-FERROELECTRIC-SEMICONDUCTOR TUNNEL JUNCTION 55
3.2.3 FERROELECTRIC TUNNELING MEMRISTOR 56
3.2.4 STRAIN MODULATION TO FERROELECTRIC MEMORY 57
3.3 PYROELECTRIC EFFECT AND INFRARED SENSOR APPLICATION 58
3.3.1 PYROELECTRIC COEFFICIENT 58
3.3.2 PYROELECTRIC INFRARED SENSOR 59
3.3.3 PYROELECTRIC FIGURES OF MERIT 60
3.4 APPLICATION IN MICROWAVE DEVICE 63
3.5 FERROELECTRIC PHOTOVOLTAICS 65
3.6 ELECTROCALORIC EFFECT 67
REFERENCES 68
4 FERROELECTRIC CHARACTERIZATIONS
73
4.1 P-E LOOP MEASUREMENT 73
4.2 TEMPERATURE-DEPENDENT DIELECTRIC PERMITTIVITY MEASUREMENT 76
4.3 PIEZORESPONSE FORCE MICROSCOPY (PFM) 77
4.3.1 IMAGING MECHANISM OF PFM 77
4.3.2 OUT-OF-PLANE POLARIZATION (OPP) AND IN-PLANE POLARIZATION (IPP)
PFM 80
4.3.2.1 ELECTROSTATIC FORCE IN PFM 83
43.2.2 PERSPECTIVES OF PFM TECHNIQUE 84
4.4 STRUCTURAL CHARACTERIZATION 86
4.5 DOMAIN IMAGING AND POLARIZATION MAPPING BY TRANSMISSION ELECTRON
MICROSCOPY 87
4.5.1 SELECTED AREA ELECTRON DIFFRACTION (SAED) 88
4.5.2 CONVERGENT BEAM ELECTRON DIFFRACTION (CBED) FOR TETRAGONALITY
MEASUREMENT 91
REFERENCES 92
5
RECENT ADVANCES IN FERROELECTRIC RESEARCH
95
5.1 SIZE LIMIT OF FERROELECTRICITY 95
5.2 FERROELECTRICITY IN EMERGING 2D MATERIALS 96
AS
0
*
5.3 FERROELECTRIC VORTEX 99
5.4 MOLECULAR FERROELECTRICS 104
5.5 FERROELECTRICITY IN HF02 AND ZR02 FLUORITE OXIDE THIN FILMS 106
5.6 FERROIC PROPERTIES IN HYBRID PEROVSKITES 114
REFERENCES 117
PIEZOELECTRIC EFFECT: BASIC THEORY
123
.1 GENERAL INTRODUCTION TO PIEZOELECTRIC EFFECT 123
6.2 PIEZOELECTRIC CONSTANT MEASUREMENT 124
6.2.1 PIEZOELECTRIC CHARGE CONSTANT 125
6.2.2 PIEZOELECTRIC VOLTAGE CONSTANT 126
6.2.3 DIELECTRIC PERMITTIVITY 127
6.2.4 YOUNGS MODULUS (ELASTIC STIFFNESS) 127
6.2.5 ELASTIC COMPLIANCE 127
6.2.6 ELECTROMECHANICAL COUPLING FACTOR 128
6.2.6.1 HOW TO MEASURE ELECTROMECHANICAL COUPLING FACTOR? 129
6.3 EQUIVALENT CIRCUIT 132
6.4 CHARACTERIZATION OF PIEZOELECTRIC RESONATOR BASED ON A RESONANCE
TECHNIQUE 135
6.4.1 LENGTH EXTENSIONAL MODE OF A ROD 135
6.4.2 EXTENSIONAL VIBRATION MODE OF A LONG PLATE 138
6.4.3 THICKNESS SHEAR MODE OF A THIN PLATE 139
6.4.4 THICKNESS MODE OF A THIN DISC/PLATE 140
6.4.5 RADIAL MODE IN A THIN DISC 141
6.4.6 MECHANICAL QUALITY FACTOR 141
REFERENCES 141
7
PIEZOELECTRIC DEVICES
143
7.1 PIEZOELECTRIC ULTRASONIC TRANSDUCERS 143
7.1.1 STRUCTURE OF ULTRASONIC TRANSDUCERS 143
7.1.2 THEORETICAL MODELS OF ULTRASONIC TRANSDUCER (KLM MODEL) 145
7.1.3 CHARACTERIZATION OF ULTRASONIC TRANSDUCERS 147
7.1.3.1 BANDWIDTH (BW) 147
7.1.3.2 SENSITIVITY OF THE TRANSDUCER 148
7.1.3.3 RESOLUTION 148
7.1.4 TYPES OF ULTRASONIC TRANSDUCERS 149
7.1.4.1 MEDICAL APPLICATION 149
7.1.5 PIEZOELECTRIC FILM APPLICATION IN ULTRASOUND TRANSDUCERS 149
7.1.6 CHALLENGES AND TREND OF DEVELOPING NEW ADVANCED ULTRASOUND
TRANSDUCERS 150
7.2 ULTRASONIC MOTOR 150
7.2.1 TERMINOLOGIES 151
7.2.2 DESIGN OF USM 153
7.3 SURFACE ACOUSTICS WAVE DEVICES 154
7.3.1 INTERDIGITAL ELECTRODE IN SAW DEVICE 155
7.3.2 ACOUSTIC WAVE 155
7.3.3 PIEZOELECTRIC PROPERTY CONSIDERATIONS FOR SAW DEVICES 157
VIII I
CONTENTS
7.3.4 CHARACTERIZATION OF SAW DEVICES 159
7.3.5 LEAD-FREE PIEZOELECTRIC MATERIALS 161
REFERENCES 163
8 FERROMAGNETICS: FROM MATERIAL TO DEVICE
165
8.1 GENERAL INTRODUCTION TO FERROMAGNETICS 165
8.2 FERROMAGNETIC PHASE TRANSITION: LANDAU FREE-ENERGY THEORY 168
8.3 DOMAIN AND DOMAIN WALL 169
8.4 MAGNETORESISTANCE EFFECT AND DEVICE 171
8.4.1 ANISOTROPIC MAGNETORESISTANCE (AMR) 171
8.4.2 GIANT MAGNETORESISTANCE (GMR) 172
8.4.3 COLOSSAL MAGNETORESISTANCE (CMR) 175
8.4.4 TUNNELING MAGNETORESISTANCE (TMR) 176
8.4.4.1 SPIN-TRANSFER TORQUE RANDOM-ACCESS MEMORY (STT-RAM) 177
8.5 MAGNETOSTRICTIVE EFFECT AND DEVICE APPLICATIONS 178
8.5.1 MAGNETOSTRICTIVE PROPERTIES OF TERFENOL-D 180
8.5.2 MAGNETOSTRICTIVE ULTRASONIC TRANSDUCER 183
8.5.3 MAGNETOELASTIC EFFECT 184
8.5.3.1 MAGNETOMECHANICAL STRAIN GAUGE 185
8.6 CHARACTERIZATIONS OF FERROMAGNETISM 186
8.6.1 VIBRATING SAMPLE MAGNETOMETER (VSM) 186
8.6.2 SUPERCONDUCTING QUANTUM INTERFERENCE DEVICE (SQUID) 187
8.6.3 MAGNETIC FORCE MICROSCOPY (MFM) 188
8.6.4 MAGNETO-OPTICAL KERR EFFECT (MOKE) 189
8.7 HALL EFFECT 191
8.7.1 ORDINARY HALL EFFECT 191
8.7.2 ANOMALOUS HALL EFFECT 191
8.7.3 SPIN HALL EFFECT 192
REFERENCES 193
9
MULTIFERROICS: SINGLE PHASE AND COMPOSITES
197
9.1 INTRODUCTION ON MULTIFERROIC 197
9.2 MAGNETOELECTRIC EFFECT 199
9.3 WHY ARE THERE SO FEW MAGNETIC FERROELECTRICS? 199
9.4 SINGLE PHASE MULTIFERROIC MATERIALS 200
9.4.1 SWITCHING MECHANISM IN BFO FILMS 204
9.5 ME COMPOSITE MATERIALS 205
9.6 MODELING THE INTERFACIAL COUPLING IN MULTILAYERED
ME THIN FILM 207
9.6.1 PZT/CFO MULTILAYERED HETEROSTRUCTURES 207
9.6.2 FERROELECTRIC PROPERTIES OF PZT/CFO MULTILAYERS 209
REFERENCES 212
10 DEVICE APPLICATION OF MULTIFERROICS
217
10.1 ME COMPOSITE DEVICES 217
10.1.1 EFFECT OF PRELOAD STRESS 221
10.2 MEMORY DEVICES BASED ON MULTIFERROIC THIN FILMS 223
10.3 MEMORY DEVICES BASED ON MULTIFERROIC TUNNELING 224
REFERENCES 229
11
FERROELASTICITY AND SHAPE MEMORY
ALLOY 231
11.1 SHAPE MEMORY ALLOY 231
11.1.1 SMA PHASE CHANGE MECHANISM 232
11.1.2 NONLINEARITY IN SMA 233
11.1.3 ONE-WAY AND TWO-WAY SHAPE MEMORY EFFECT 235
11.1.4 SUPERELASTIC EFFECT (SE) 235
11.1.5 APPLICATION EXAMPLES OF SMAS 236
11.2 FERROMAGNETIC SHAPE MEMORY ALLOYS 237
11.2.1 FORMATION OF TWIN VARIANTS 238
11.2.2 CHALLENGES FOR NI-MN-GA SMA 242
11.2.3 DEVICE APPLICATION OF MSMA 243
REFERENCES 244
INDEX
247
|
| adam_txt |
CONTENTS
1 GENERAL INTRODUCTION: SMART MATERIALS, SENSORS, AND
ACTUATORS I
1.1 SMART SYSTEM 2
1.2 DEVICE APPLICATION OF FERROELECTRIC MATERIALS 5
1.2.1 PIEZOELECTRIC DEVICE APPLICATIONS 6
1.2.2 INFRARED SENSOR 7
1.2.3 FERROELECTRIC RAM (FERAM) 8
1.3 DEVICE APPLICATION OF FERROMAGNETIC MATERIALS 9
1.3.1 SPIN-TRANSFER TORQUE MEMORY 9
1.3.2 MAGNETIC FIELD SENSOR BASED ON MULTIFERROIC DEVICE 9
1.4 FERROELASTIC MATERIAL AND DEVICE APPLICATION 10
1.5 SCOPE OF THIS BOOK 12
REFERENCES 13
2 INTRODUCTION TO FERROELECTRICS 15
2.1 WHAT IS FERROELECTRICS? 15
2.1.1 P-E LOOP 15
2.1.2 RELATIONSHIPS BETWEEN DIELECTRIC, PIEZOELECTRIC, PYROELECTRIC, AND
FERROELECTRIC 16
2.1.2.1 FERROELECTRIC-DIELECTRIC 16
2.1.2.2 FERROELECTRIC-PIEZOELECTRIC 17
2.1.2.3 FERROELECTRIC-PYROELECTRIC 18
2.2 ORIGIN OF FERROELECTRICS 18
2.2.1 STRUCTURE-INDUCED PHASE CHANGE FROM PARAELECTRIC TO
FERROELECTRIC 18
2.2.2 SOFT PHONON MODE 19
2.3 THEORY OF FERROELECTRIC PHASE TRANSITION 21
2.3.1 LANDAU FREE ENERGY AND CURIE-WEISS LAW 21
2.3.2 LANDAU THEORY OF FIRST-ORDER PHASE TRANSITION 23
2.3.3 LANDAU THEORY OF A SECOND-ORDER PHASE TRANSITION 26
2.4 FERROELECTRIC DOMAINS AND DOMAIN SWITCHING 28
2.4.1 DOMAIN STRUCTURE 28
2.4.2 FERROELECTRIC SWITCHING 28
2.5 FERROELECTRIC MATERIALS 29
BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/1193020441
VI CONTENTS
2.5.1 FROM BATIOS TO SRTI03 29
2.5.2 FROM PBTI03 TO PBZROS 32
2.5.3 ANTIFERROELECTRIC PBZR03 33
2.5.3.1 PB(ZRX TIL_X)03 (PZT) 35
2.5.4 RELAXOR FERROELECTRICS 36
2.5.4.1 RELAXOR FERROELECTRICS: PMN-#PT SINGLE CRYSTAL 37
2.5A.2 POLAR NANO REGIONS 38
2.5.4.3 MORPHOTROPIC PHASE BOUNDARY (MPB) OF PMN-PT CRYSTAL 40
2.6 FERROELECTRIC DOMAIN AND PHASE FIELD CALCULATION 41
REFERENCES 42
3 DEVICE APPLICATIONS OF FERROELECTRICS
47
3.1 FERROELECTRIC RANDOM-ACCESS MEMORY 47
3.2 FERROELECTRIC TUNNELING NON-VOLATILE MEMORY 50
3.2.1 TUNNELING MODELS 51
3.2.2 METAL-FERROELECTRIC-SEMICONDUCTOR TUNNEL JUNCTION 55
3.2.3 FERROELECTRIC TUNNELING MEMRISTOR 56
3.2.4 STRAIN MODULATION TO FERROELECTRIC MEMORY 57
3.3 PYROELECTRIC EFFECT AND INFRARED SENSOR APPLICATION 58
3.3.1 PYROELECTRIC COEFFICIENT 58
3.3.2 PYROELECTRIC INFRARED SENSOR 59
3.3.3 PYROELECTRIC FIGURES OF MERIT 60
3.4 APPLICATION IN MICROWAVE DEVICE 63
3.5 FERROELECTRIC PHOTOVOLTAICS 65
3.6 ELECTROCALORIC EFFECT 67
REFERENCES 68
4 FERROELECTRIC CHARACTERIZATIONS
73
4.1 P-E LOOP MEASUREMENT 73
4.2 TEMPERATURE-DEPENDENT DIELECTRIC PERMITTIVITY MEASUREMENT 76
4.3 PIEZORESPONSE FORCE MICROSCOPY (PFM) 77
4.3.1 IMAGING MECHANISM OF PFM 77
4.3.2 OUT-OF-PLANE POLARIZATION (OPP) AND IN-PLANE POLARIZATION (IPP)
PFM 80
4.3.2.1 ELECTROSTATIC FORCE IN PFM 83
43.2.2 PERSPECTIVES OF PFM TECHNIQUE 84
4.4 STRUCTURAL CHARACTERIZATION 86
4.5 DOMAIN IMAGING AND POLARIZATION MAPPING BY TRANSMISSION ELECTRON
MICROSCOPY 87
4.5.1 SELECTED AREA ELECTRON DIFFRACTION (SAED) 88
4.5.2 CONVERGENT BEAM ELECTRON DIFFRACTION (CBED) FOR TETRAGONALITY
MEASUREMENT 91
REFERENCES 92
5
RECENT ADVANCES IN FERROELECTRIC RESEARCH
95
5.1 SIZE LIMIT OF FERROELECTRICITY 95
5.2 FERROELECTRICITY IN EMERGING 2D MATERIALS 96
AS
0
*
5.3 FERROELECTRIC VORTEX 99
5.4 MOLECULAR FERROELECTRICS 104
5.5 FERROELECTRICITY IN HF02 AND ZR02 FLUORITE OXIDE THIN FILMS 106
5.6 FERROIC PROPERTIES IN HYBRID PEROVSKITES 114
REFERENCES 117
PIEZOELECTRIC EFFECT: BASIC THEORY
123
.1 GENERAL INTRODUCTION TO PIEZOELECTRIC EFFECT 123
6.2 PIEZOELECTRIC CONSTANT MEASUREMENT 124
6.2.1 PIEZOELECTRIC CHARGE CONSTANT 125
6.2.2 PIEZOELECTRIC VOLTAGE CONSTANT 126
6.2.3 DIELECTRIC PERMITTIVITY 127
6.2.4 YOUNGS MODULUS (ELASTIC STIFFNESS) 127
6.2.5 ELASTIC COMPLIANCE 127
6.2.6 ELECTROMECHANICAL COUPLING FACTOR 128
6.2.6.1 HOW TO MEASURE ELECTROMECHANICAL COUPLING FACTOR? 129
6.3 EQUIVALENT CIRCUIT 132
6.4 CHARACTERIZATION OF PIEZOELECTRIC RESONATOR BASED ON A RESONANCE
TECHNIQUE 135
6.4.1 LENGTH EXTENSIONAL MODE OF A ROD 135
6.4.2 EXTENSIONAL VIBRATION MODE OF A LONG PLATE 138
6.4.3 THICKNESS SHEAR MODE OF A THIN PLATE 139
6.4.4 THICKNESS MODE OF A THIN DISC/PLATE 140
6.4.5 RADIAL MODE IN A THIN DISC 141
6.4.6 MECHANICAL QUALITY FACTOR 141
REFERENCES 141
7
PIEZOELECTRIC DEVICES
143
7.1 PIEZOELECTRIC ULTRASONIC TRANSDUCERS 143
7.1.1 STRUCTURE OF ULTRASONIC TRANSDUCERS 143
7.1.2 THEORETICAL MODELS OF ULTRASONIC TRANSDUCER (KLM MODEL) 145
7.1.3 CHARACTERIZATION OF ULTRASONIC TRANSDUCERS 147
7.1.3.1 BANDWIDTH (BW) 147
7.1.3.2 SENSITIVITY OF THE TRANSDUCER 148
7.1.3.3 RESOLUTION 148
7.1.4 TYPES OF ULTRASONIC TRANSDUCERS 149
7.1.4.1 MEDICAL APPLICATION 149
7.1.5 PIEZOELECTRIC FILM APPLICATION IN ULTRASOUND TRANSDUCERS 149
7.1.6 CHALLENGES AND TREND OF DEVELOPING NEW ADVANCED ULTRASOUND
TRANSDUCERS 150
7.2 ULTRASONIC MOTOR 150
7.2.1 TERMINOLOGIES 151
7.2.2 DESIGN OF USM 153
7.3 SURFACE ACOUSTICS WAVE DEVICES 154
7.3.1 INTERDIGITAL ELECTRODE IN SAW DEVICE 155
7.3.2 ACOUSTIC WAVE 155
7.3.3 PIEZOELECTRIC PROPERTY CONSIDERATIONS FOR SAW DEVICES 157
VIII I
CONTENTS
7.3.4 CHARACTERIZATION OF SAW DEVICES 159
7.3.5 LEAD-FREE PIEZOELECTRIC MATERIALS 161
REFERENCES 163
8 FERROMAGNETICS: FROM MATERIAL TO DEVICE
165
8.1 GENERAL INTRODUCTION TO FERROMAGNETICS 165
8.2 FERROMAGNETIC PHASE TRANSITION: LANDAU FREE-ENERGY THEORY 168
8.3 DOMAIN AND DOMAIN WALL 169
8.4 MAGNETORESISTANCE EFFECT AND DEVICE 171
8.4.1 ANISOTROPIC MAGNETORESISTANCE (AMR) 171
8.4.2 GIANT MAGNETORESISTANCE (GMR) 172
8.4.3 COLOSSAL MAGNETORESISTANCE (CMR) 175
8.4.4 TUNNELING MAGNETORESISTANCE (TMR) 176
8.4.4.1 SPIN-TRANSFER TORQUE RANDOM-ACCESS MEMORY (STT-RAM) 177
8.5 MAGNETOSTRICTIVE EFFECT AND DEVICE APPLICATIONS 178
8.5.1 MAGNETOSTRICTIVE PROPERTIES OF TERFENOL-D 180
8.5.2 MAGNETOSTRICTIVE ULTRASONIC TRANSDUCER 183
8.5.3 MAGNETOELASTIC EFFECT 184
8.5.3.1 MAGNETOMECHANICAL STRAIN GAUGE 185
8.6 CHARACTERIZATIONS OF FERROMAGNETISM 186
8.6.1 VIBRATING SAMPLE MAGNETOMETER (VSM) 186
8.6.2 SUPERCONDUCTING QUANTUM INTERFERENCE DEVICE (SQUID) 187
8.6.3 MAGNETIC FORCE MICROSCOPY (MFM) 188
8.6.4 MAGNETO-OPTICAL KERR EFFECT (MOKE) 189
8.7 HALL EFFECT 191
8.7.1 ORDINARY HALL EFFECT 191
8.7.2 ANOMALOUS HALL EFFECT 191
8.7.3 SPIN HALL EFFECT 192
REFERENCES 193
9
MULTIFERROICS: SINGLE PHASE AND COMPOSITES
197
9.1 INTRODUCTION ON MULTIFERROIC 197
9.2 MAGNETOELECTRIC EFFECT 199
9.3 WHY ARE THERE SO FEW MAGNETIC FERROELECTRICS? 199
9.4 SINGLE PHASE MULTIFERROIC MATERIALS 200
9.4.1 SWITCHING MECHANISM IN BFO FILMS 204
9.5 ME COMPOSITE MATERIALS 205
9.6 MODELING THE INTERFACIAL COUPLING IN MULTILAYERED
ME THIN FILM 207
9.6.1 PZT/CFO MULTILAYERED HETEROSTRUCTURES 207
9.6.2 FERROELECTRIC PROPERTIES OF PZT/CFO MULTILAYERS 209
REFERENCES 212
10 DEVICE APPLICATION OF MULTIFERROICS
217
10.1 ME COMPOSITE DEVICES 217
10.1.1 EFFECT OF PRELOAD STRESS 221
10.2 MEMORY DEVICES BASED ON MULTIFERROIC THIN FILMS 223
10.3 MEMORY DEVICES BASED ON MULTIFERROIC TUNNELING 224
REFERENCES 229
11
FERROELASTICITY AND SHAPE MEMORY
ALLOY 231
11.1 SHAPE MEMORY ALLOY 231
11.1.1 SMA PHASE CHANGE MECHANISM 232
11.1.2 NONLINEARITY IN SMA 233
11.1.3 ONE-WAY AND TWO-WAY SHAPE MEMORY EFFECT 235
11.1.4 SUPERELASTIC EFFECT (SE) 235
11.1.5 APPLICATION EXAMPLES OF SMAS 236
11.2 FERROMAGNETIC SHAPE MEMORY ALLOYS 237
11.2.1 FORMATION OF TWIN VARIANTS 238
11.2.2 CHALLENGES FOR NI-MN-GA SMA 242
11.2.3 DEVICE APPLICATION OF MSMA 243
REFERENCES 244
INDEX
247 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Dai, Jiyan |
| author_GND | (DE-588)1206551941 |
| author_facet | Dai, Jiyan |
| author_role | aut |
| author_sort | Dai, Jiyan |
| author_variant | j d jd |
| building | Verbundindex |
| bvnumber | BV046782932 |
| classification_rvk | ZN 3430 |
| ctrlnum | (OCoLC)1113413901 (DE-599)DNB1193020441 |
| dewey-full | 621.3815 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3815 |
| dewey-search | 621.3815 |
| dewey-sort | 3621.3815 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| id | DE-604.BV046782932 |
| illustrated | Illustrated |
| index_date | 2024-07-03T14:50:34Z |
| indexdate | 2024-07-10T08:53:41Z |
| institution | BVB |
| institution_GND | (DE-588)16179388-5 |
| isbn | 9783527344765 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032192062 |
| oclc_num | 1113413901 |
| open_access_boolean | |
| owner | DE-83 DE-703 DE-634 |
| owner_facet | DE-83 DE-703 DE-634 |
| physical | ix, 252 Seiten Illustrationen, Diagramme 25 cm, 674 g |
| publishDate | 2020 |
| publishDateSearch | 2020 |
| publishDateSort | 2020 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Dai, Jiyan Verfasser (DE-588)1206551941 aut Ferroic materials for smart systems from fundamentals to device applications Jiyan Dai Weinheim, Germany Wiley-VCH [2020] ix, 252 Seiten Illustrationen, Diagramme 25 cm, 674 g txt rdacontent n rdamedia nc rdacarrier Piezoelektrizität (DE-588)4322722-3 gnd rswk-swf Memory-Legierung (DE-588)4120726-9 gnd rswk-swf Magnetostriktives Bauelement (DE-588)7632924-0 gnd rswk-swf FRAM Informatik (DE-588)4830042-1 gnd rswk-swf Ferroelektrischer Sensor (DE-588)4154124-8 gnd rswk-swf Multiferroikum (DE-588)7845875-4 gnd rswk-swf Ferroelektrizität (DE-588)4154126-1 gnd rswk-swf Piezoelektrisches Bauelement (DE-588)4174671-5 gnd rswk-swf Ferroelektrikum (DE-588)4154121-2 gnd rswk-swf Ferromagnetikum (DE-588)4154129-7 gnd rswk-swf Components & Devices Electrical & Electronics Engineering Elektrotechnik u. Elektronik Festkörperphysik Komponenten u. Bauelemente Materialeigenschaften Materials Science Materialwissenschaften Physics Physik Properties of Materials Solid State Physics EE60: Komponenten u. Bauelemente MSD0: Materialeigenschaften PH60: Festkörperphysik Ferroika Ferroelektrizität (DE-588)4154126-1 s Ferroelektrikum (DE-588)4154121-2 s Piezoelektrizität (DE-588)4322722-3 s Ferromagnetikum (DE-588)4154129-7 s Multiferroikum (DE-588)7845875-4 s FRAM Informatik (DE-588)4830042-1 s Ferroelektrischer Sensor (DE-588)4154124-8 s Piezoelektrisches Bauelement (DE-588)4174671-5 s Magnetostriktives Bauelement (DE-588)7632924-0 s Memory-Legierung (DE-588)4120726-9 s DE-604 Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-81534-0 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-81537-1 Erscheint auch als Online-Ausgabe oBook 978-3-527-81538-8 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34476-5/ B:DE-101 application/pdf https://d-nb.info/1193020441/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032192062&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Dai, Jiyan Ferroic materials for smart systems from fundamentals to device applications Piezoelektrizität (DE-588)4322722-3 gnd Memory-Legierung (DE-588)4120726-9 gnd Magnetostriktives Bauelement (DE-588)7632924-0 gnd FRAM Informatik (DE-588)4830042-1 gnd Ferroelektrischer Sensor (DE-588)4154124-8 gnd Multiferroikum (DE-588)7845875-4 gnd Ferroelektrizität (DE-588)4154126-1 gnd Piezoelektrisches Bauelement (DE-588)4174671-5 gnd Ferroelektrikum (DE-588)4154121-2 gnd Ferromagnetikum (DE-588)4154129-7 gnd |
| subject_GND | (DE-588)4322722-3 (DE-588)4120726-9 (DE-588)7632924-0 (DE-588)4830042-1 (DE-588)4154124-8 (DE-588)7845875-4 (DE-588)4154126-1 (DE-588)4174671-5 (DE-588)4154121-2 (DE-588)4154129-7 |
| title | Ferroic materials for smart systems from fundamentals to device applications |
| title_auth | Ferroic materials for smart systems from fundamentals to device applications |
| title_exact_search | Ferroic materials for smart systems from fundamentals to device applications |
| title_exact_search_txtP | Ferroic materials for smart systems from fundamentals to device applications |
| title_full | Ferroic materials for smart systems from fundamentals to device applications Jiyan Dai |
| title_fullStr | Ferroic materials for smart systems from fundamentals to device applications Jiyan Dai |
| title_full_unstemmed | Ferroic materials for smart systems from fundamentals to device applications Jiyan Dai |
| title_short | Ferroic materials for smart systems |
| title_sort | ferroic materials for smart systems from fundamentals to device applications |
| title_sub | from fundamentals to device applications |
| topic | Piezoelektrizität (DE-588)4322722-3 gnd Memory-Legierung (DE-588)4120726-9 gnd Magnetostriktives Bauelement (DE-588)7632924-0 gnd FRAM Informatik (DE-588)4830042-1 gnd Ferroelektrischer Sensor (DE-588)4154124-8 gnd Multiferroikum (DE-588)7845875-4 gnd Ferroelektrizität (DE-588)4154126-1 gnd Piezoelektrisches Bauelement (DE-588)4174671-5 gnd Ferroelektrikum (DE-588)4154121-2 gnd Ferromagnetikum (DE-588)4154129-7 gnd |
| topic_facet | Piezoelektrizität Memory-Legierung Magnetostriktives Bauelement FRAM Informatik Ferroelektrischer Sensor Multiferroikum Ferroelektrizität Piezoelektrisches Bauelement Ferroelektrikum Ferromagnetikum |
| url | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34476-5/ https://d-nb.info/1193020441/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032192062&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT daijiyan ferroicmaterialsforsmartsystemsfromfundamentalstodeviceapplications AT wileyvch ferroicmaterialsforsmartsystemsfromfundamentalstodeviceapplications |
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