Future Trends in Microelectronics : Journey into the Unknown.

By: Luryi, SergeContributor(s): Xu, Jimmy | Zaslavsky, AlexanderPublisher: Somerset : John Wiley & Sons, Incorporated, 2016Copyright date: ©2016Edition: 1st edDescription: 1 online resource (383 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781119069171Genre/Form: Electronic books. Additional physical formats: Print version:: Future Trends in Microelectronics : Journey into the UnknownDDC classification: 621.381 LOC classification: TK7874.F887 2016Online resources: Click to View
Contents:
Cover -- Title Page -- Copyright -- Contents -- List of Contributors -- Preface -- Acknowledgments -- Part I Future of Digital Silicon -- 1.1 Prospects of Future Si Technologies in the Data-Driven World -- 1. Introduction -- 2. Memory - DRAM -- 3. Memory - NAND -- 4. Logic technology -- 5. CMOS image sensors -- 6. Packaging technology -- 7. Silicon photonics technology -- 8. Concluding remarks -- Acknowledgments -- References -- 1.2 How Lithography Enables Moore's Law -- 1. Introduction -- 2. Moore's Law and the contribution of lithography -- 3. Lithography technology: past and present -- 4. Lithography technology: future -- 5. Summary -- 6. Conclusion -- Acknowledgments -- References -- 1.3 What Happened to Post-CMOS? -- 1. Introduction -- 2. General constraints on speed and energy -- 3. Guidelines for success -- 4. Benchmarking and examples -- 5. Discussion -- 6. Conclusion -- Acknowledgments -- References -- 1.4 Three-Dimensional Integration of Ge and Two-Dimensional Materials for One-Dimensional Devices -- 1. Introduction -- 2. FEOL technology and materials for 3D integration -- 3. Integration of "more than Moore" functionality -- 4. Implications of 3D integration at the system level -- 5. Conclusion -- Acknowledgments -- References -- 1.5 Challenges to Ultralow-Power Semiconductor Device Operation -- 1. Introduction -- 2. Ultimate MOS transistors -- 3. Small slope switches -- 4. Conclusion -- Acknowledgments -- References -- 1.6 A Universal Nonvolatile Processing Environment -- 1. Introduction -- 2. Universal nonvolatile processing environment -- 3. Bias-field-free spin-torque oscillator -- 4. Summary -- Acknowledgments -- References -- 1.7 Can MRAM (Finally) Be a Factor? -- 1. Introduction -- 2. What is MRAM? -- 3. Current limitations for stand-alone memories -- 4. Immediate opportunities: embedded memories -- 5. Conclusion -- References.
1.8 Nanomanufacturing for Electronics or Optoelectronics -- 1. Introduction -- 2. Nano-LEGO® -- 3. Tunnel devices -- 4. Split-gate transistors -- 5. Other nanoscale systems -- 6. Conclusion -- Acknowledgments -- References -- Part II New Materials and New Physics -- 2.1 Surface Waves Everywhere -- 1. Introduction -- 2. Water waves -- 3. Surface acoustic waves -- 4. Surface plasma waves and polaritons -- 5. Plasma waves in two-dimensional structures -- 6. Electronic surface states in solids -- 7. Dyakonov surface waves (DSWs) -- 2.2 Graphene and Atom-Thick 2D Materials: Device Application Prospects -- 1. Introduction -- 2. Conventional low-dimensional systems -- 3. New atomically thin material systems -- 4. Device application of new material systems -- 5. Components in Si technology -- 6. Graphene on Ge -- 7. Conclusion -- References -- 2.3 Computing with Coupled Relaxation Oscillators -- 1. Introduction -- 2. Vanadium dioxide-based relaxation oscillators -- 3. Experimental demonstration of pairwise coupled HVFET oscillators -- 4. Computing with pairwise coupled HVFET oscillators -- 5. Associative computing using pairwise coupled oscillators -- 6. Conclusion -- References -- 2.4 On the Field-Induced Insulator-Metal Transition in VO2 Films -- 1. Introduction -- 2. Electron concentration-induced transition -- 3. Field-induced transition in a film -- 4. Need for a ground plane -- 5. Conclusion -- References -- 2.5 Group IV Alloys for Advanced Nano- and Optoelectronic Applications -- 1. Introduction -- 2. Epitaxial growth of GeSn layers by reactive gas source epitaxy -- 3. Optically pumped GeSn laser -- 4. Potential of GeSn alloys for electronic devices -- 5. Conclusion -- Acknowledgments -- References -- 2.6 High Sn-Content GeSn Light Emitters for Silicon Photonics -- 1. Introduction -- 2. Experimental details of the GeSn material system.
3. Direct bandgap GeSn light emitting diodes -- 4. Group IV GeSn microdisk laser on Si(100) -- 5. Conclusion and outlook -- References -- 2.7 Gallium Nitride-Based Lateral and Vertical Nanowire Devices -- 1. Introduction -- 2. Crystallographic study of GaN nanowires using TMAH wet etching -- 3. Ω-shaped-gate lateral AlGaN/GaN FETs -- 4. Gate-all-around vertical GaN FETs -- 5. Conclusion -- Acknowledgments -- References -- 2.8 Scribing Graphene Circuits -- 1. Introduction -- 2. Graphene oxide from graphite -- 3. GO exfoliation -- 4. Selective reduction of graphene oxide -- 5. Raman spectroscopy -- 6. Electrical properties of graphene oxide and reduced graphene oxide -- 7. Future perspectives -- Acknowledgments -- References -- 2.9 Structure and Electron Transport in Irradiated Monolayer Graphene -- 1. Introduction -- 2. Samples -- 3. Raman scattering (RS) spectra -- 4. Sample resistance -- 5. Hopping magnetoresistance -- References -- 2.10 Interplay of Coulomb Blockade and Luttinger-Liquid Physics in Disordered 1D InAs Nanowires with Strong Spin-Orbit Coupling -- 1. Introduction -- 2. Sample preparation and the experimental setup -- 3. Experimental results -- 4. Conclusion -- Acknowledgments -- References -- Part III Microelectronics in Health, Energy Harvesting, and Communications -- 3.1 Image-Guided Intervention and Therapy: The First Time Right -- 1. Introduction -- 2. Societal challenge: Rapid rise of cardiovascular diseases -- 3. Societal challenge: Rapid rise of cancer -- 4. Drivers of change in healthcare -- 5. Conclusion -- Acknowledgments -- References -- 3.2 Rewiring the Nervous System, Without Wires -- 1. Introduction -- 2. Why go wireless? -- 3. One wireless recording solution used to explore primary motor cortex control of locomotion.
4. Writing into the nervous system with epidural electrical stimulation of spinal circuits effectively modulates gait -- 5. Genetic technology brings a better model to neuroscience -- 6. The wireless bridge for closed-loop control and rehabilitation -- 7. Conclusion -- Acknowledgments -- References -- 3.3 Nanopower-Integrated Electronics for Energy Harvesting, Conversion, and Management -- 1. Introduction -- 2. Commercial ICs for micropower harvesting -- 3. State-of-the-art integrated nanocurrent power converters for energy-harvesting applications -- 4. A multisource-integrated energy-harvesting circuit -- 5. Conclusion -- Acknowledgments -- References -- 3.4 Will Composite Nanomaterials Replace Piezoelectric Thin Films for Energy Transduction Applications? -- 1. Introduction -- 2. Thin film piezoelectric materials and applications -- 3. Individual ZnO and GaN piezoelectric nanowires: experiments and simulations -- 4. Piezoelectric composite materials using nanowires -- 5. Conclusion -- Acknowledgments -- References -- 3.5 New Generation of Vertical-Cavity Surface-Emitting Lasers for Optical Interconnects -- 1. Introduction -- 2. VCSEL requirements -- 3. Optical leakage -- 4. Experiment -- 5. Simulation -- 6. Conclusion -- Acknowledgments -- References -- 3.6 Reconfigurable Infrared Photodetector Based on Asymmetrically Doped Double Quantum Wells for Multicolor and Remote Temperature Sensing -- 1. Introduction -- 2. Fabrication of DQWIP with asymmetrical doping -- 3. Optoelectronic characterization of DQWIPs -- 4. Temperature sensing -- 5. Conclusion -- Acknowledgments -- References -- 3.7 Tunable Photonic Molecules for Spectral Engineering in Dense Photonic Integration -- 1. Introduction -- 2. Photonic molecules and their spectral features -- 3. Coupling-controlled mode-splitting: GHz-operation on a tight footprint.
4. Reconfigurable spectral control -- 5. Toward reconfigurable mode-splitting control -- 6. Conclusion -- Acknowledgments -- References -- Index -- EULA.
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Cover -- Title Page -- Copyright -- Contents -- List of Contributors -- Preface -- Acknowledgments -- Part I Future of Digital Silicon -- 1.1 Prospects of Future Si Technologies in the Data-Driven World -- 1. Introduction -- 2. Memory - DRAM -- 3. Memory - NAND -- 4. Logic technology -- 5. CMOS image sensors -- 6. Packaging technology -- 7. Silicon photonics technology -- 8. Concluding remarks -- Acknowledgments -- References -- 1.2 How Lithography Enables Moore's Law -- 1. Introduction -- 2. Moore's Law and the contribution of lithography -- 3. Lithography technology: past and present -- 4. Lithography technology: future -- 5. Summary -- 6. Conclusion -- Acknowledgments -- References -- 1.3 What Happened to Post-CMOS? -- 1. Introduction -- 2. General constraints on speed and energy -- 3. Guidelines for success -- 4. Benchmarking and examples -- 5. Discussion -- 6. Conclusion -- Acknowledgments -- References -- 1.4 Three-Dimensional Integration of Ge and Two-Dimensional Materials for One-Dimensional Devices -- 1. Introduction -- 2. FEOL technology and materials for 3D integration -- 3. Integration of "more than Moore" functionality -- 4. Implications of 3D integration at the system level -- 5. Conclusion -- Acknowledgments -- References -- 1.5 Challenges to Ultralow-Power Semiconductor Device Operation -- 1. Introduction -- 2. Ultimate MOS transistors -- 3. Small slope switches -- 4. Conclusion -- Acknowledgments -- References -- 1.6 A Universal Nonvolatile Processing Environment -- 1. Introduction -- 2. Universal nonvolatile processing environment -- 3. Bias-field-free spin-torque oscillator -- 4. Summary -- Acknowledgments -- References -- 1.7 Can MRAM (Finally) Be a Factor? -- 1. Introduction -- 2. What is MRAM? -- 3. Current limitations for stand-alone memories -- 4. Immediate opportunities: embedded memories -- 5. Conclusion -- References.

1.8 Nanomanufacturing for Electronics or Optoelectronics -- 1. Introduction -- 2. Nano-LEGO® -- 3. Tunnel devices -- 4. Split-gate transistors -- 5. Other nanoscale systems -- 6. Conclusion -- Acknowledgments -- References -- Part II New Materials and New Physics -- 2.1 Surface Waves Everywhere -- 1. Introduction -- 2. Water waves -- 3. Surface acoustic waves -- 4. Surface plasma waves and polaritons -- 5. Plasma waves in two-dimensional structures -- 6. Electronic surface states in solids -- 7. Dyakonov surface waves (DSWs) -- 2.2 Graphene and Atom-Thick 2D Materials: Device Application Prospects -- 1. Introduction -- 2. Conventional low-dimensional systems -- 3. New atomically thin material systems -- 4. Device application of new material systems -- 5. Components in Si technology -- 6. Graphene on Ge -- 7. Conclusion -- References -- 2.3 Computing with Coupled Relaxation Oscillators -- 1. Introduction -- 2. Vanadium dioxide-based relaxation oscillators -- 3. Experimental demonstration of pairwise coupled HVFET oscillators -- 4. Computing with pairwise coupled HVFET oscillators -- 5. Associative computing using pairwise coupled oscillators -- 6. Conclusion -- References -- 2.4 On the Field-Induced Insulator-Metal Transition in VO2 Films -- 1. Introduction -- 2. Electron concentration-induced transition -- 3. Field-induced transition in a film -- 4. Need for a ground plane -- 5. Conclusion -- References -- 2.5 Group IV Alloys for Advanced Nano- and Optoelectronic Applications -- 1. Introduction -- 2. Epitaxial growth of GeSn layers by reactive gas source epitaxy -- 3. Optically pumped GeSn laser -- 4. Potential of GeSn alloys for electronic devices -- 5. Conclusion -- Acknowledgments -- References -- 2.6 High Sn-Content GeSn Light Emitters for Silicon Photonics -- 1. Introduction -- 2. Experimental details of the GeSn material system.

3. Direct bandgap GeSn light emitting diodes -- 4. Group IV GeSn microdisk laser on Si(100) -- 5. Conclusion and outlook -- References -- 2.7 Gallium Nitride-Based Lateral and Vertical Nanowire Devices -- 1. Introduction -- 2. Crystallographic study of GaN nanowires using TMAH wet etching -- 3. Ω-shaped-gate lateral AlGaN/GaN FETs -- 4. Gate-all-around vertical GaN FETs -- 5. Conclusion -- Acknowledgments -- References -- 2.8 Scribing Graphene Circuits -- 1. Introduction -- 2. Graphene oxide from graphite -- 3. GO exfoliation -- 4. Selective reduction of graphene oxide -- 5. Raman spectroscopy -- 6. Electrical properties of graphene oxide and reduced graphene oxide -- 7. Future perspectives -- Acknowledgments -- References -- 2.9 Structure and Electron Transport in Irradiated Monolayer Graphene -- 1. Introduction -- 2. Samples -- 3. Raman scattering (RS) spectra -- 4. Sample resistance -- 5. Hopping magnetoresistance -- References -- 2.10 Interplay of Coulomb Blockade and Luttinger-Liquid Physics in Disordered 1D InAs Nanowires with Strong Spin-Orbit Coupling -- 1. Introduction -- 2. Sample preparation and the experimental setup -- 3. Experimental results -- 4. Conclusion -- Acknowledgments -- References -- Part III Microelectronics in Health, Energy Harvesting, and Communications -- 3.1 Image-Guided Intervention and Therapy: The First Time Right -- 1. Introduction -- 2. Societal challenge: Rapid rise of cardiovascular diseases -- 3. Societal challenge: Rapid rise of cancer -- 4. Drivers of change in healthcare -- 5. Conclusion -- Acknowledgments -- References -- 3.2 Rewiring the Nervous System, Without Wires -- 1. Introduction -- 2. Why go wireless? -- 3. One wireless recording solution used to explore primary motor cortex control of locomotion.

4. Writing into the nervous system with epidural electrical stimulation of spinal circuits effectively modulates gait -- 5. Genetic technology brings a better model to neuroscience -- 6. The wireless bridge for closed-loop control and rehabilitation -- 7. Conclusion -- Acknowledgments -- References -- 3.3 Nanopower-Integrated Electronics for Energy Harvesting, Conversion, and Management -- 1. Introduction -- 2. Commercial ICs for micropower harvesting -- 3. State-of-the-art integrated nanocurrent power converters for energy-harvesting applications -- 4. A multisource-integrated energy-harvesting circuit -- 5. Conclusion -- Acknowledgments -- References -- 3.4 Will Composite Nanomaterials Replace Piezoelectric Thin Films for Energy Transduction Applications? -- 1. Introduction -- 2. Thin film piezoelectric materials and applications -- 3. Individual ZnO and GaN piezoelectric nanowires: experiments and simulations -- 4. Piezoelectric composite materials using nanowires -- 5. Conclusion -- Acknowledgments -- References -- 3.5 New Generation of Vertical-Cavity Surface-Emitting Lasers for Optical Interconnects -- 1. Introduction -- 2. VCSEL requirements -- 3. Optical leakage -- 4. Experiment -- 5. Simulation -- 6. Conclusion -- Acknowledgments -- References -- 3.6 Reconfigurable Infrared Photodetector Based on Asymmetrically Doped Double Quantum Wells for Multicolor and Remote Temperature Sensing -- 1. Introduction -- 2. Fabrication of DQWIP with asymmetrical doping -- 3. Optoelectronic characterization of DQWIPs -- 4. Temperature sensing -- 5. Conclusion -- Acknowledgments -- References -- 3.7 Tunable Photonic Molecules for Spectral Engineering in Dense Photonic Integration -- 1. Introduction -- 2. Photonic molecules and their spectral features -- 3. Coupling-controlled mode-splitting: GHz-operation on a tight footprint.

4. Reconfigurable spectral control -- 5. Toward reconfigurable mode-splitting control -- 6. Conclusion -- Acknowledgments -- References -- Index -- EULA.

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