Ferroelectric Dielectrics Integrated on Silicon (eBook, ePUB)
Redaktion: Defaÿ, Emmanuel
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Ferroelectric Dielectrics Integrated on Silicon (eBook, ePUB)
Redaktion: Defaÿ, Emmanuel
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This book describes up-to-date technology applied to high-K materials for More Than Moore applications, i.e. microsystems applied to microelectronics core technologies. After detailing the basic thermodynamic theory applied to high-K dielectrics thin films including extrinsic effects, this book emphasizes the specificity of thin films. Deposition and patterning technologies are then presented. A whole chapter is dedicated to the major role played in the field by X-Ray Diffraction characterization, and other characterization techniques are also described such as Radio frequency…mehr
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 448
- Erscheinungstermin: 7. Februar 2013
- Englisch
- ISBN-13: 9781118602805
- Artikelnr.: 38246339
- Verlag: John Wiley & Sons
- Seitenzahl: 448
- Erscheinungstermin: 7. Februar 2013
- Englisch
- ISBN-13: 9781118602805
- Artikelnr.: 38246339
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Emmanuel DEFA
1.1. Background 1
1.2. The functions of state 2
1.3. Linear equations, piezoelectricity 6
1.4. Nonlinear equations, electrostriction 8
1.5. Thermodynamic modeling of the ferroelectric-paraelectric phase
transition 9
1.6. Conclusion 24
1.7. Bibliography 25
Chapter 2. Stress Effect on Thin Films 27
Pierre-Eymeric JANOLIN
2.1. Introduction 27
2.2. Modeling the system under consideration 27
2.3. Temperature-misfit strain phase diagrams for monodomain films 28
2.4. Domain stability map 35
2.5. Temperature-misfit strain phase diagram for polydomain films 48
2.6. Discussion of the nature of the "misfit strain" 50
2.7. Conclusion 52
2.8. Experimental validation of phase diagrams: state of the art 52
2.9. Case study 53
2.10. Results 53
2.11. Comparison between the experimental data and the temperature-misfit
strain phase diagrams 60
2.12. Conclusion 65
2.13. Bibliography 66
Chapter 3. Deposition and Patterning Technologies 71
Chrystel DEGUET, Gwenaël LE RHUN, Bertrand VILQUIN and Emmanuel DEFA
3.1. Deposition method 71
3.2. Etching 86
3.3. Contamination 86
3.4. Monocrystalline thin-film transfer 87
3.5. Design of experiments 96
3.6. Conclusion 107
3.7. Bibliography 108
Chapter 4. Analysis Through X-ray Diffraction of Polycrystalline Thin Films
111
Patrice GERGAUD
4.1. Introduction 111
4.2. Some reminders of x-ray diffraction and crystallography 112
4.3. Application to powder or polycrystalline thin-films 122
4.4. Phase analysis by X-ray diffraction 126
4.5. Identification of coherent domain sizes of diffraction and
micro-strains 132
4.6. Identification of crystallographic textures by X-ray diffraction 139
4.7. Determination of strains/stresses by X-ray diffraction 146
4.8. Bibliography 156
Chapter 5. Physicochemical and Electrical Characterization 159
Gwenaël LE RHUN, Brahim DKHIL and Pascale GEMEINER
5.1. Introduction 159
5.2. Useful characterization techniques 159
5.3. Ferroelectric measurement 170
5.4. Dielectric measurement 177
5.5. Bibliography 180
Chapter 6. Radio-Frequency Characterization 183
Thierry LACREVAZ
6.1. Introduction 183
6.2. Notions and basic concepts associated with HF 184
6.3. Frequency analysis: HF characterization of materials 204
6.4. Bibliography 211
Chapter 7. Leakage Currents in PZT Capacitors 213
Emilien BOUYSSOU
7.1. Introduction 213
7.2. Leakage current in metal/insulator/metal structures 215
7.3. Problem of leakage current measurement 225
7.4. Characterization of the relaxation current 233
7.5. Literature review of true leakage current in PZT 237
7.6. Dynamic characterization of true leakage current: I(t, T) 239
7.7. Static characterization of the true leakage current: I(V,T) 263
7.8. Conclusion 273
7.9. Bibliography 275
Chapter 8. Integrated Capacitors 281
Emmanuel DEFA
8.1. Introduction 281
8.2. Potentiality of perovskites for RF devices: permittivity and losses
283
8.3. Bi-dielectric capacitors with high linearity 294
8.4. STO capacitors integrated on CMOS substrate by AIC technology 298
8.5. Bibliography 303
Chapter 9. Reliability of PZT Capacitors 305
Emilien BOUYSSOU
9.1. Introduction 305
9.2. Accelerated aging of metal/insulator/metal structures 307
9.3. Accelerated aging of PZT capacitors through CVS tests 316
9.4. Lifetime extrapolation of PZT capacitors 325
9.5. Conclusion 335
9.6. Bibliography 336
Chapter 10. Ferroelectric Tunable Capacitors 341
Benoit GUIGUES
10.1. Introduction 341
10.2. Overview of the tunable capacitors 342
10.3. Types of actual tunable capacitors 355
10.4. Toward new tunable capacitors 366
10.5. Bibliography 375
Chapter 11. FRAM Ferroelectric Memories: Basic Operations, Limitations,
Innovations and Applications 379
Christophe MULLER
11.1. Taxonomy of non-volatile memories 379
11.2. FRAM memories: basic operations and limitations 383
11.3. Technologies available in 2011 387
11.4. Technological innovations 388
11.5. Some application areas of FRAM technology 394
11.6. Conclusion 396
11.7. Bibliography 397
Chapter 12. Integration of Multiferroic BiFeO3 Thin Films into Modern
Microelectronics 403
Xiaohong ZHU
12.1. Introduction 403
12.2. Preparation methods 407
12.3. Ferroelectricity and magnetism 416
12.4. Device applications 427
12.5. Bibliography 436
List of Authors 443
Index 445
Emmanuel DEFA
1.1. Background 1
1.2. The functions of state 2
1.3. Linear equations, piezoelectricity 6
1.4. Nonlinear equations, electrostriction 8
1.5. Thermodynamic modeling of the ferroelectric-paraelectric phase
transition 9
1.6. Conclusion 24
1.7. Bibliography 25
Chapter 2. Stress Effect on Thin Films 27
Pierre-Eymeric JANOLIN
2.1. Introduction 27
2.2. Modeling the system under consideration 27
2.3. Temperature-misfit strain phase diagrams for monodomain films 28
2.4. Domain stability map 35
2.5. Temperature-misfit strain phase diagram for polydomain films 48
2.6. Discussion of the nature of the "misfit strain" 50
2.7. Conclusion 52
2.8. Experimental validation of phase diagrams: state of the art 52
2.9. Case study 53
2.10. Results 53
2.11. Comparison between the experimental data and the temperature-misfit
strain phase diagrams 60
2.12. Conclusion 65
2.13. Bibliography 66
Chapter 3. Deposition and Patterning Technologies 71
Chrystel DEGUET, Gwenaël LE RHUN, Bertrand VILQUIN and Emmanuel DEFA
3.1. Deposition method 71
3.2. Etching 86
3.3. Contamination 86
3.4. Monocrystalline thin-film transfer 87
3.5. Design of experiments 96
3.6. Conclusion 107
3.7. Bibliography 108
Chapter 4. Analysis Through X-ray Diffraction of Polycrystalline Thin Films
111
Patrice GERGAUD
4.1. Introduction 111
4.2. Some reminders of x-ray diffraction and crystallography 112
4.3. Application to powder or polycrystalline thin-films 122
4.4. Phase analysis by X-ray diffraction 126
4.5. Identification of coherent domain sizes of diffraction and
micro-strains 132
4.6. Identification of crystallographic textures by X-ray diffraction 139
4.7. Determination of strains/stresses by X-ray diffraction 146
4.8. Bibliography 156
Chapter 5. Physicochemical and Electrical Characterization 159
Gwenaël LE RHUN, Brahim DKHIL and Pascale GEMEINER
5.1. Introduction 159
5.2. Useful characterization techniques 159
5.3. Ferroelectric measurement 170
5.4. Dielectric measurement 177
5.5. Bibliography 180
Chapter 6. Radio-Frequency Characterization 183
Thierry LACREVAZ
6.1. Introduction 183
6.2. Notions and basic concepts associated with HF 184
6.3. Frequency analysis: HF characterization of materials 204
6.4. Bibliography 211
Chapter 7. Leakage Currents in PZT Capacitors 213
Emilien BOUYSSOU
7.1. Introduction 213
7.2. Leakage current in metal/insulator/metal structures 215
7.3. Problem of leakage current measurement 225
7.4. Characterization of the relaxation current 233
7.5. Literature review of true leakage current in PZT 237
7.6. Dynamic characterization of true leakage current: I(t, T) 239
7.7. Static characterization of the true leakage current: I(V,T) 263
7.8. Conclusion 273
7.9. Bibliography 275
Chapter 8. Integrated Capacitors 281
Emmanuel DEFA
8.1. Introduction 281
8.2. Potentiality of perovskites for RF devices: permittivity and losses
283
8.3. Bi-dielectric capacitors with high linearity 294
8.4. STO capacitors integrated on CMOS substrate by AIC technology 298
8.5. Bibliography 303
Chapter 9. Reliability of PZT Capacitors 305
Emilien BOUYSSOU
9.1. Introduction 305
9.2. Accelerated aging of metal/insulator/metal structures 307
9.3. Accelerated aging of PZT capacitors through CVS tests 316
9.4. Lifetime extrapolation of PZT capacitors 325
9.5. Conclusion 335
9.6. Bibliography 336
Chapter 10. Ferroelectric Tunable Capacitors 341
Benoit GUIGUES
10.1. Introduction 341
10.2. Overview of the tunable capacitors 342
10.3. Types of actual tunable capacitors 355
10.4. Toward new tunable capacitors 366
10.5. Bibliography 375
Chapter 11. FRAM Ferroelectric Memories: Basic Operations, Limitations,
Innovations and Applications 379
Christophe MULLER
11.1. Taxonomy of non-volatile memories 379
11.2. FRAM memories: basic operations and limitations 383
11.3. Technologies available in 2011 387
11.4. Technological innovations 388
11.5. Some application areas of FRAM technology 394
11.6. Conclusion 396
11.7. Bibliography 397
Chapter 12. Integration of Multiferroic BiFeO3 Thin Films into Modern
Microelectronics 403
Xiaohong ZHU
12.1. Introduction 403
12.2. Preparation methods 407
12.3. Ferroelectricity and magnetism 416
12.4. Device applications 427
12.5. Bibliography 436
List of Authors 443
Index 445