fundamentals of nanoelectronics
To develop an appreciation for the conceptual foundations underlying the operation of nanoelectronic devices. Thomas Duncan Distinguished Professor of Electrical and Computer Engineering, NAE member, for Fundamentals of Nanoelectronics: Basic Concepts, Pursue a Verified Certificate to highlight the knowledge and skills you gain. September 2015.

For an quick overview on quantum mechanics, it's a very good book. Nachdem Sie Produktseiten oder Suchergebnisse angesehen haben, finden Sie hier eine einfache Möglichkeit, diese Seiten wiederzufinden. Fast delivery through DHL/FedEx express. 1.6 Problems 16 .

Stattdessen betrachtet unser System Faktoren wie die Aktualität einer Rezension und ob der Rezensent den Artikel bei Amazon gekauft hat. Fundamentals of Nanoelectronics of Electrical Engineering & Computer Science University of Wisconsin at Milwaukee PEARSON Prentice Hall Pearson Education International. Außerdem analysiert es Rezensionen, um die Vertrauenswürdigkeit zu überprüfen. Wählen Sie ein Land/eine Region für Ihren Einkauf. Geben Sie es weiter, tauschen Sie es ein, © 1998-2020, Amazon.com, Inc. oder Tochtergesellschaften. Ich möchte dieses Buch auf dem Kindle lesen.

PART I FUNDAMENTALS OF NANOSCOPIC PHYSICS 1, 1.1 The “Top-Down” Approach 61.1.1 Lithography, 8, 2 CLASSICAL PARTICLES, CLASSICALWAVES, AND QUANTUM PARTICLES 17, 2.1 Comparison of Classical and Quantum Systems 18, 2.3 Light As a Wave, Light As a Particle 212.3.1 Light As a Particle, or Perhaps a Wave — The Early Years, 21, 2.3.2 A Little Later — Light as a Wave, 21, 2.3.3 Finally, Light As a Quantum Particle, 26, 2.4 Electrons As Particles, Electrons As Waves 292.4.1 Electrons As Particles — The Early Years, 29, 2.4.2 A Little Later — Electrons (and Everything Else) As Quantum Particles, 29, 2.4.3 Further Development of Quantum Mechanics, 32, 3.1 General Postulates of Quantum Mechanics 463.1.1 Operators, 48, 3.1.4 Operators for Quantum Mechanics, 53, 3.2 Time-Independent Schr¨odinger’s Equation 633.2.1 Boundary Conditions on the Wavefunction, 66, 3.3 Analogies Between Quantum Mechanics and Classical Electromagnetics 71, 4.1 Free Electrons 874.1.1 One-Dimensional Space, 88, 4.2 The Free Electron Gas Theory of Metals 92, 4.3 Electrons Confined to a Bounded Region of Space, and Quantum Numbers 934.3.1 One-Dimensional Space, 93, 4.4 Fermi Level and Chemical Potential 101, 4.5 Partially Confined Electrons — Finite Potential Wells 1034.5.1 Finite Rectangular Well, 104, 4.5.2 Parabolic Well — Harmonic Oscillator, 111, 4.6 Electrons Confined to Atoms — The Hydrogen Atom and the Periodic Table 4.6 1134.6.1 The Hydrogen Atom and Quantum Numbers, 114, 4.6.2 Beyond Hydrogen — Multiple Electron Atoms and the Periodic Table , 118, 4.7 Quantum Dots, Wires, and Wells 1204.7.1 Quantum Wells, 124, 5 ELECTRONS SUBJECT TO A PERIODIC POTENTIAL — BAND THEORY OF SOLIDS 134, 5.2 Electrons in a Periodic Potential 139, 5.3 Kronig—Penney Model of Band Structure 1405.3.1 Effective Mass, 144, 5.4 Band Theory of Solids 1535.4.1 Doping in Semiconductors, 157, 5.4.3 The Effect of an Electric Field on Energy Bands, 163, 5.4.4 Bandstructures of Some Semiconductors, 163, 5.4.5 Electronic Band Transitions — Interaction of Electromagnetic Energy and Materials, 165, 5.5 Graphene and Carbon Nanotubes 1735.5.1 Graphene, 173, PART II SINGLE-ELECTRON AND FEW-ELECTRON PHENOMENA AND DEVICES 185, 6 TUNNEL JUNCTIONS AND APPLICATIONS OF TUNNELING 187, 6.1 Tunneling Through a Potential Barrier 188, 6.2 Potential Energy Profiles for Material Interfaces 1946.2.1 Metal—Insulator, Metal-Semiconductor, and Metal—Insulator—Metal Junctions, 194, 6.3 Applications of Tunneling 1996.3.1 Field Emission, 199, 6.3.2 Gate—Oxide Tunneling and Hot Electron Effects in MOSFETs, 202, 6.3.4 Double Barrier Tunneling and the Resonant Tunneling Diode, 210, 7 COULOMB BLOCKADE AND THE SINGLE-ELECTRON TRANSISTOR 216, 7.1 Coulomb Blockade 2167.1.1 Coulomb Blockade in a Nanocapacitor, 218, 7.1.3 Tunnel Junction Excited by a Current Source, 226, 7.1.4 Coulomb Blockade in a Quantum Dot Circuit, 230, 7.2 The Single-Electron Transistor 2407.2.1 Single-Electron Transistor Logic, 248, 7.3 Other SET and FET Structures 2507.3.1 Carbon Nanotube Transistors (FETs and SETs), 250, 7.3.2 Semiconductor Nanowire FETs and SETs, 255, 7.3.3 Molecular SETs and Molecular Electronics, 257, 8 PARTICLE STATISTICS AND DENSITY OF STATES 267, 8.1 Density of States 2688.1.1 Density of States in Lower Dimensions, 270, 8.1.2 Density of States in a Semiconductor, 273, 8.2.1 Carrier Concentration in Materials, 276, 8.2.2 The Importance of the Fermi Electrons, 280, 8.2.3 Equilibrium Carrier Concentration and the Fermi Level in Semiconductors, 280, 9 MODELS OF SEMICONDUCTOR QUANTUM WELLS, QUANTUM WIRES, AND QUANTUM DOTS 286, 9.1 Semiconductor Heterostructures and Quantum Wells 2889.1.1 Confinement Models and Two-Dimensional Electron Gas, 292, 9.1.2 Energy Band Transitions in Quantum Wells, 295, 9.3 Quantum Dots and Nanoparticles 3059.3.1 Applications of Semiconducting Quantum Dots, 306, 9.3.2 Plasmon Resonance and Metallic Nanoparticles, 312, 9.3.3 Functionalized Metallic Nanoparticles, 313, 9.4 Fabrication Techniques for Nanostructures 3159.4.1 Lithography, 315, 10 NANOWIRES, BALLISTIC TRANSPORT, AND SPIN TRANSPORT 326, 10.1 Classical and Semiclassical Transport 32710.1.1 Classical Theory of Conduction—Free Electron Gas Model, 327, 10.1.2 Semiclassical Theory of Electrical Conduction — Fermi Gas Model , 330, 10.1.3 Classical Resistance and Conductance, 333, 10.1.4 Conductivity of Metallic Nanowires — The Influence of Wire Radius, 335, 10.2 Ballistic Transport 33710.2.1 Electron Collisions and Length Scales, 338, 10.2.3 Quantum Resistance and Conductance, 341, 10.2.4 Origin of the Quantum Resistance, 348, 10.3 Carbon Nanotubes and Nanowires 34910.3.1 The Effect of Nanoscale Wire Radius on Wave Velocity and Loss , 353, 10.4 Transport of Spin and Spintronics 35610.4.1 The Transport of Spin, 356, 10.4.2 Spintronic Devices and Applications, 361, APPENDIX B PHYSICAL PROPERTIES OF MATERIALS 367, Problems Chapter 2: Classical Particles, Classical Waves, and Quantum Particles, 376, Problems Chapter 3: Quantum Mechanics of Electrons, 377, Problems Chapter 4: Free and Confined Electrons, 378, Problems Chapter 5: Electrons Subject to a Periodic Potential — Band Theory of Solids, 379, Problems Chapter 6: Tunnel Junctions and Applications of Tunneling, 380, Problems Chapter 7: Coulomb Blockade and the Single-Electron Transistor, 381, Problems Chapter 8: Particle Statistics and Density of States, 381. 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���A������$��� �p�m�M�� �w}��M�^���!��{�3C*�!�[@��D�4" September 2015. We use cookies to give you the best experience on our website. *FREE* shipping on qualifying offers. Diesen Roman kann man nicht aus der Hand legen…, 8051 Microcontroller and Embedded Systems, The: Pearson New International Edition, The Feynman Lectures on Physics, Vol. III: The New Millennium Edition: Quantum Mechanics (Feynman Lectures on Physics (Paperback)). – Part 1, Fundamentals of Nanoscopic Physics, describes the physical principles needed to understand nanoelectronic devices. You have successfully signed out and will be required to sign back in should you need to download more resources. Fundamentals of Nanoelectronics - Part A: Basic Concepts, 2nd Edition published on edX, March 2015 and nanoHUB-U, June 2015. Ihre zuletzt angesehenen Artikel und besonderen Empfehlungen. Um aus diesem Karussell zu navigieren, benutzen Sie bitte Ihre Überschrift-Tastenkombination, um zur nächsten oder vorherigen Überschrift zu navigieren. Fundamentals of Nanoelectronics | | ISBN: 9780131957084 | Kostenloser Versand für alle Bücher mit Versand und Verkauf duch Amazon. Etwas ist schiefgegangen. III: The New Millennium Edition: Quantum Mechanics (Feynman Lectures on Physics (Paperback)).

– ggf. Es liegen 0 Rezensionen und 0 Bewertungen aus Deutschland vor, Entdecken Sie jetzt alle Amazon Prime-Vorteile. 0000001942 00000 n 0000013858 00000 n Momentanes Problem beim Laden dieses Menüs. The aim of this course is to make the fundamentals of nanoelectronics accessible to anyone in any branch of science or engineering, assuming very little background beyond linear algebra and differential equations, although we will be discussing advanced concepts in non-equilibrium statistical mechanics that should be of interest even to specialists. 0000000688 00000 n Zugelassene Drittanbieter verwenden diese Tools auch in Verbindung mit der Anzeige von Werbung durch uns. Leider ist ein Problem beim Speichern Ihrer Cookie-Einstellungen aufgetreten. For an quick overview on quantum mechanics, it's a very good book. 0000001964 00000 n The work is protected by local and international copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning. ?��l*rlS���Ze��)�����������Z��-/-U��PHa(%AR�T�G�Q�/�)u�R��,)m�����d�^,����]Z#��Z��#��Q��_Y7)2�>���G����D3���K������A\a��p�o����/�K�����������������f�ڐO2@�2v�rȰ`��H9[ p2�P;N!�Dx��G~���h�$�p��a� ȠS�g a�U��0@�6�EeL2�A�`�L"Ȁk#� `�_i��a�^a��z&��� �]�A��>���&�z}�'��Ӷ��OO�O���^�Mُ��S��!�~� Ə�1G�4�7��Ă�D�W�S��c? -2. Fundamentals of Nanoelectronics: Basic Concepts Presents key concepts in nanoelectronics and mesoscopic physics and relates them to the traditional view of electron flow in solids.

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