Aimed at upper-level undergraduate students and graduate students in Electrical Engineering, Physics, Applied Physics, Materials Science, and Engineering, this textbook covers the quantum physics of semiconductors, including their practical applications in various areas and their future potential.
Aimed at upper-level undergraduate students and graduate students in Electrical Engineering, Physics, Applied Physics, Materials Science, and Engineering, this textbook covers the quantum physics of semiconductors, including their practical applications in various areas and their future potential.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Debdeep Jena is a Professor of Electrical and Computer Engineering and Materials Science and Engineering at Cornell University. His research and teaching interests are in the quantum physics, technology, and device applications of semiconductor and superconductor heterostructures such as III-V nitrides and oxides, and 2-dimensional crystals. He leads a research group that combines experiments and theory to investigate charge, heat, and spin transport in highly crystalline solids, and uses them to explore fundamental limits of electronic, photonic, and quantum devices. The research of this group has been published in approximately 300 papers, generated several patents, and recognized by international awards.
Inhaltsangabe
I Fundamentals 1: And Off We Go! 2: Secrets of the Classical Electron 3: Quantum Mechanics in a Nutshell 4: Damned Lies, and Statistics 5: Electrons in the Quantum World 6: Red or Blue pill: Befriending the Matrix 7: Perturbations to the Electron's Freedom II Bands, Doping, and Heterostructures 8: Electrons in a Crystal get their Bands, Gaps and Masses 9: Bloch theorem, Bandstructure, and Quantum Currents 10: Crystal Clear: Bandstructure of the Empty Lattice 11: Tight-Binding Bandstructure 12: k . p Bandstructure 13: 1, 2, 3 ...: Pseudopotentials and Exact Bandstructure 14: Doping and Heterostructures: The Effective Mass Method 15: Carrier Statistics and Energy Band Diagrams 16: Controlling Electron Traffic in the k-Space III Quantum Electronics with Semiconductors 17: Game of Modes: Quantized R, L, and C 18: Junction Magic: Schottky, pn and Bipolar Transistors 19: Zeroes and Ones: The Ballistic Transistor 20: Fermi's Golden Rule 21: No Turning Back: The Boltzmann Transport Equation 22: Taking the Heat: Phonons and Electron-Phonon Interactions 23: Scattering, Mobility, and Velocity Saturation 24: Through the Barrier: Tunneling and Avalanches 25: Running Circles: Quantum Magnetotransport IV Quantum Photonics with Semiconductors 26: Let there be Light: Maxwell Equations 27: Light-Matter Interaction 28: Heavenly Light: Solar Cells and Photodetectors 29: Reach for the stars: Lasers and LEDs 30: Every End is a New Beginning
I Fundamentals 1: And Off We Go! 2: Secrets of the Classical Electron 3: Quantum Mechanics in a Nutshell 4: Damned Lies, and Statistics 5: Electrons in the Quantum World 6: Red or Blue pill: Befriending the Matrix 7: Perturbations to the Electron's Freedom II Bands, Doping, and Heterostructures 8: Electrons in a Crystal get their Bands, Gaps and Masses 9: Bloch theorem, Bandstructure, and Quantum Currents 10: Crystal Clear: Bandstructure of the Empty Lattice 11: Tight-Binding Bandstructure 12: k . p Bandstructure 13: 1, 2, 3 ...: Pseudopotentials and Exact Bandstructure 14: Doping and Heterostructures: The Effective Mass Method 15: Carrier Statistics and Energy Band Diagrams 16: Controlling Electron Traffic in the k-Space III Quantum Electronics with Semiconductors 17: Game of Modes: Quantized R, L, and C 18: Junction Magic: Schottky, pn and Bipolar Transistors 19: Zeroes and Ones: The Ballistic Transistor 20: Fermi's Golden Rule 21: No Turning Back: The Boltzmann Transport Equation 22: Taking the Heat: Phonons and Electron-Phonon Interactions 23: Scattering, Mobility, and Velocity Saturation 24: Through the Barrier: Tunneling and Avalanches 25: Running Circles: Quantum Magnetotransport IV Quantum Photonics with Semiconductors 26: Let there be Light: Maxwell Equations 27: Light-Matter Interaction 28: Heavenly Light: Solar Cells and Photodetectors 29: Reach for the stars: Lasers and LEDs 30: Every End is a New Beginning
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