Verfügbarkeit: Nanoelectronics and nanosystems

Nanoelectronics and nanosystems: from transistors to molecular and quantum devices

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Bibliographische Detailangaben
Hauptverfasser:	Goser, Karl (VerfasserIn), Glösekötter, Peter 1971- (VerfasserIn), Dienstuhl, Jan (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2004
Schriftenreihe:	Engineering online library
Schlagworte:	Nanoelektronik Nanotechnologie Molecular electronics Nanotechnology
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 281 S. zahlr. Ill. und graph. Darst.
ISBN:	3540404430

Internformat

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Datensatz im Suchindex

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adam_text	Titel: Nanoelectronics and nanosystems Autor: Goser, Karl Jahr: 2004 Contents 1 On the Way to Nanoelectronics 1 1.1 The Development of Microelectronics 2 1.2 The Region of Nanostructurcs 4 1.3 The Complexity Problem 7 1.4 The Challenge initiated by Nanoelectronics 9 1.5 Summary 11 2 Potentials of Silicon Technology 13 2.1 Semiconductor as Base Material 13 2.1.1 Band Diagram of a Semiconductor 13 2.1.2 Band Diagrams of Inhoinogencous Semiconductor Structures 15 2.2 Technologies 16 2.2.1 Different Types of Transistor Integration 17 2.2.2 Technological Processes for Microminiaturization 19 2.3 Methods and Limits of Microminiaturization in Silicon 23 2.3.1 Scaling 23 2.3.2 Milestones of Silicon Technology 24 2.3.3 Estimation of Technology Limits 20 2.4 Microelectronic and Mechanical Systems (MEMS) 31 2.4.1 Technology of Microinechanics 31 2.4.2 Micromechanics for Nanoelectronics 32 2.5 Integrated Optoelectronics 34 2.6 Conclusion 37 3 Basics of Nanoelectronics 39 3.1 Some Physical Fundamentals 39 3.1.1 Electromagnetic Fields and Photons 39 3.1.2 Quantization of Action, Charge, and Flux 41 3.1.3 Electrons Behaving as Waves (Schrbdinger Equation) .. 42 3.1.4 Electrons in Potential Wells 45 VIII Contents 3.1.5 Photons interacting with Electrons in Solids 46 3.1.6 Diffusion Processes 48 3.2 Basics of Information Theory 52 3.2.1 Data and Bits 52 3.2.2 Data Processing 56 3.3 Summary 59 4 Biology-Inspired Concepts 61 4.1 Biological Networks 61 4.1.1 Biological Neurons 61 4.1.2 The Function of a Neuronal Cell 64 4.2 Biology-Inspired Concepts 67 4.2.1 Biological Neuronal Ceils on Silicon 68 4.2.2 Modelling of Neuronal Cells by VLSI Circuits 69 4.2.3 Neuronal Networks with local Adaptation and Distributed Data Processing 72 4.3 Summary 75 5 Biochemical and Quantum-mechanical Computers 77 5.1 DNA Computer 78 5.1.1 Information Processing with Chemical Reactions 78 5.1.2 Nanornachines 79 5.1.3 Parallel Processing 82 5.2 Quantum Computer 83 5.2.1 Bit and Qubit 83 5.2.2 Coherence and Entanglement 85 5.2.3 Quantum Parallelism 86 5.3 Summary 88 G Parallel Architectures for Nanosystems 89 6.1 Architectural Principles 89 6.1.1 Mono-and Multiprocessor Systems 89 6.1.2 Some Considerations to Parallel Data Processing 91 6.1.3 Influence of Delay Time 92 6.1.4 Power Dissipation and Parallelism 95 6.2 Architectures for Parallel Processing in Nanosystems 97 6.2.1 Classic Systolic Arrays 97 6.2.2 Processors with Large Memories 98 6.2.3 Processor Array with SIMD and PIP Architecture 100 6.2.4 Reconfigurablc Computer 101 6.2.5 The Teramac Concept as a Prototype 101 6.3 Summary Contents IX Softcomputing and Nanoelectronics 107 7.1 Methods of Softcomputing 108 7.1.1 Fuzzy Systems 108 7.1.2 Evolutionary Algorithms 112 7.1.3 Connectionistic Systems 113 7.1.4 Computational Intelligence Systems 115 7.2 Characteristics of Neural Networks in Nanoelectronics 117 7.2.1 Local Processing 117 7.2.2 Distributed and Fault-Tolerant Storage 118 7.2.3 Self-Organization 120 7.3 Summary 122 Complex Integrated Systems and their Properties 123 8.1 Nanosystems as Information-Processing Machines 123 8.1.1 Nanosystems as Functional Blocks 123 8.1.2 Information Processing as Information Modification ... 124 8.2 System Design and its Interfaces 12G 8.3 Evolutionary Hardware 129 8.4 Requirements of Nanosystems 130 8.5 Summary 132 Integrated Switches and Basic Circuits 133 9.1 Switches and Wiring 134 9.1.1 Ideal and Real Switches 134 9.1.2 Ideal and Real Wiring 137 9.2 Classic Integrated Switches and their Basic Circuits 141 9.2.1 Example of a Classic Switch: The Transistor 141 9.2.2 Conventional Basic Circuits 142 9.2.3 Threshold Gates 145 9.2.4 Fredkin Gate 147 9.3 Summary 149 Quantum Electronics 151 10.1 Quantum Electronic Devices (QED) 151 10.1.1 Upcoming Electronic Devices 151 10.1.2 Electrons in Mesoscopic Structures 153 10.2 Examples of Quantum Electronic Devices 15G 10.2.1 Short-Channel MOS Transistor 15G 10.2.2 Split-Gate Transistor 157 10.2.3 Electron-Wave Transistor 158 10.2.4 Electron-Spin Transistor 159 10.2.5 Quantum Cellular Automata (QCA) 1G0 10.2.6 Quantum-Dot Array 105 10.3 Summary 106 X Contents 11 Bioelectronics and Molecular Electronics 169 11.1 Bioelectronics 170 11.1.1 Molecular Processor 171 11.1.2 DNA Analyzer as Biochip 172 11.2 Molecular Electronics 174 11.2.1 Overview 174 11.2.2 Switches based on Fullerenes and Nanotubes 175 11.2.3 Polymer Electronic 178 11.2.4 Self-Assembling Circuits 180 11.2.5 Optical Molecular Memories 182 11.3 Summary 185 12 Nanoelectronics with Tunneling Devices 187 12.1 Tunneling Element (TE) 187 12.1.1 Tunnel Effect and Tunneling Elements 188 12.1.2 Tunneling Diode (TD) 190 12.1.3 Resonant Tunneling Diode (RTD) 192 12.1.4 Three-Terminal Resonant Tunneling Devices 196 12.2 Technology of RTD 196 12.3 Digital Circuit Design Based on RTDs 198 12.3.1 Memory Applications 198 12.3.2 Basic Logic Circuits 198 12.3.3 Dynamic Logic Gates 199 12.4 Digital Circuit Design Based on the RTBT 204 12.4.1 RTBT MOBILE 204 12.4.2 RTBT Threshold Gate 205 12.4.3 RTBT Multiplexer 206 12.5 Summary 208 13 Single-Electron Transistor (SET) 209 13.1 Principle of the Single-Electron Transistor 209 13.1.1 The Coulomb Blockade 209 13.1.2 Performance, of the Single-Electron Transistor 211 13.1.3 Technology 214 13.2 SET Circuit Design 216 13.2.1 Wiring and Drivers 216 13.2.2 Logic and Memory Circuits 217 13.2.3 SET Adder as an Example of a Distributed Circuit 220 13.3 Comparison Between PET and SET Circuit Designs 220 13.4 Summary 223 Contents XI 14 Nanoelectronics with Superconducting Devices 225 14.1 Basics 225 14.1.1 Macroscopic Characteristics 225 14.1.2 The Macroscopic Model 227 14.2 Superconducting Switching Devices 228 14.2.1 Cryotron 228 14.2.2 The Josephson Tunneling Device 229 14.3 Elementary Circuits 231 14.3.1 Memory Cell 231 14.3.2 Associative or Content-Addressable Memory 232 14.3.3 SQUID - Superconducting Quantum Interferometer Device 233 14.4 Flux Quantum Device 233 14.4.1 LC-Gate 234 14.4.2 Magnetic Flux Quantum - Quantum Cellular Automata 234 14.4.3 Quantum Computer with Single-Flux Devices 234 14.4.4 Single Flux Quantum Device - SFQD 236 14.4.5 Rapid Single Flux Quantum Device - R.SFQD 237 14.5 Application of Superconducting Devices 238 14.5.1 Integrated Electronics 238 14.5.2 FET Electronics - A Comparison 239 14.5.3 The Electrical Standards 241 14.6 Summary 242 15 The Limits of Integrated Electronics 245 15.1 A Survey about the Limits 245 15.2 The Replacement of Technologies 246 15.3 Energy Supply and Heat Dissipation 248 15.4 Parameter Spread as Limiting Effect 252 15.5 The Limits due to Thermal Particle Motion 257 15.5.1 The Debye Length 257 15.5.2 Thermal Noise 258 15.6 Reliability as Limiting Factor 259 15.7 Physical Limits 263 15.7.1 Thermodynamic Limits 264 15.7.2 Relativistic Limits 264 15.7.3 Quantum-Mechanical Limits 265 15.7.4 Equal Failure Rates by Tunneling and Thermal Noise .. 265 15.8 Summary 266 16 Final Objectives of Integrated Electronic Systems 267 16.1 Removal of Uncertainties by Nanomachines 267 16.2 Uncertainties in Nanosystems 269 16.3 Uncertainties in the Development of Nanoelectronics 270 16.4 Summary 271 XII Contents References 273 Index 277
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spelling	Goser, Karl Verfasser aut Nanoelectronics and nanosystems from transistors to molecular and quantum devices Karl Goser ; Peter Glösekötter ; Jan Dienstuhl Berlin [u.a.] Springer 2004 XII, 281 S. zahlr. Ill. und graph. Darst. txt rdacontent n rdamedia nc rdacarrier Engineering online library Nanoelektronik Nanotechnologie Molecular electronics Nanotechnology Nanotechnologie (DE-588)4327470-5 gnd rswk-swf Nanoelektronik (DE-588)4732034-5 gnd rswk-swf Nanotechnologie (DE-588)4327470-5 s DE-604 Nanoelektronik (DE-588)4732034-5 s Glösekötter, Peter 1971- Verfasser (DE-588)124129986 aut Dienstuhl, Jan Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010547266&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Goser, Karl Glösekötter, Peter 1971- Dienstuhl, Jan Nanoelectronics and nanosystems from transistors to molecular and quantum devices Nanoelektronik Nanotechnologie Molecular electronics Nanotechnology Nanotechnologie (DE-588)4327470-5 gnd Nanoelektronik (DE-588)4732034-5 gnd
subject_GND	(DE-588)4327470-5 (DE-588)4732034-5
title	Nanoelectronics and nanosystems from transistors to molecular and quantum devices
title_auth	Nanoelectronics and nanosystems from transistors to molecular and quantum devices
title_exact_search	Nanoelectronics and nanosystems from transistors to molecular and quantum devices
title_full	Nanoelectronics and nanosystems from transistors to molecular and quantum devices Karl Goser ; Peter Glösekötter ; Jan Dienstuhl
title_fullStr	Nanoelectronics and nanosystems from transistors to molecular and quantum devices Karl Goser ; Peter Glösekötter ; Jan Dienstuhl
title_full_unstemmed	Nanoelectronics and nanosystems from transistors to molecular and quantum devices Karl Goser ; Peter Glösekötter ; Jan Dienstuhl
title_short	Nanoelectronics and nanosystems
title_sort	nanoelectronics and nanosystems from transistors to molecular and quantum devices
title_sub	from transistors to molecular and quantum devices
topic	Nanoelektronik Nanotechnologie Molecular electronics Nanotechnology Nanotechnologie (DE-588)4327470-5 gnd Nanoelektronik (DE-588)4732034-5 gnd
topic_facet	Nanoelektronik Nanotechnologie Molecular electronics Nanotechnology
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