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Introductory Quantum Mechanics for Semiconductor Nanotechnology----好书推荐已有2人参与
Introductory Quantum Mechanics for Semiconductor Nanotechnology
The result of the nano education project run by the Korean Nano Technology Initiative, this has been recommended for use as official textbook by the Korean Nanotechnology Research Society. The author is highly experienced in teaching both physics and engineering in academia and industry, and naturally adopts an interdisciplinary approach here. He is short on formulations but long on applications, allowing students to understand the essential workings of quantum mechanics without spending too much time covering the wide realms of physics.
He takes care to provide sufficient technical background and motivation for students to pursue further studies of advanced quantum mechanics and stresses the importance of translating quantum insights into useful and tangible innovations and inventions.
As such, this is the only work to cover semiconductor nanotechnology from the perspective of introductory quantum mechanics, with applications including mainstream semiconductor technologies as well as (nano)devices, ranging from photodetectors, laser diodes, and solar cells to transistors and Schottky contacts.
Problems are also provided to test the reader's understanding and supplementary material available includes working presentation files, solutions and instructors manuals.
BRIEF REVIEW OF CLASSICAL THEORIES
Harmonic Oscillator
Boltzmann Transport Equation
Maxwell's Equations
MILESTONE DISCOVERIES AND OLD QUANTUM THEORY
Blackbody Radiation and Quantum of Energy
Specific Heat of Solids
Photoelectric Effects
Compton Scattering
Duality of Matter
Bohr?s H-Atom Theory
SCHRODINGER EQUATION AND OPERATOR ALGEBRA
Schrodinger Equation
Momentum Eigenfunction and Fourier Series
Hermitian Operator and Bra Ket Notations
Orthgonality and Completeness of Eigenfunctions
Basic Postulates of Quantum Mechanics
Commutation Relations
Conjugate Variables and Uncertainty Relation
Operator Equation of Motion and Ehrenfest Theorem
PARTICLE IN POTENTIAL WELL
Infinite Square Well Potential
Particle in 3-D Box
Density of States: 1-D, 2-D and 3-D
Particle in Quantum Well
Particle in Delta Function Potential Well
Quantum Well and Wire
SCATTERING OF A PARTICLE AT 1-D POTENTIALS
Scattering at Step Potential
Scattering at Quantum Well
TUNNELING AND ITS APPLICATIONS
Tunneling across Square Potential Barrier
Fowler-Nordheim and Direct Tunneling
Resonant Tunneling
The Applications of Tunneling
PERIODIC POTENTIALS AND ENERGY BANDS
1-D Crystal and Kronig-Penny Model
E-k Dispersion and Energy Bands
Energy Bands and Resonant Tunneling
THE HARMONIC OSCILLATOR
Energy Eigenequation
The Properties of Energy Eigenfunction
The Operator Treatment
THE ANGULAR MOMENTUM
Angualr Momentum Operators
Eigenfunctions and Spherical Harmonics
THE HYDROGEN ATOM: THE SCHRODINGER TREATMENT
Two-Body Central Force Problem
The Hydrogen Atom
The Atomic Orbital
Virial Theorm and Doppler Shift
SYSTEM OF IDENTICAL PARTICLES AND MANY-ELECTRON ATOMS
Two Electron System
Two Spin 1/2 System
The Helium Atom
The Periodic Table and the Structure of Atoms
MOLECULES AND CHEMICAL BONDS
The Ionized Hydrogen Molecule
The Hydrogen Molecule
Ionic Bond and Van der Waals Attraction
THE PERTURBATION THEORY
Time Independent Perturbation in Non-Degenerate Systems
Time Dependent Perturbation Theory
ATOM -
FIELD INTERACTION
Field Quantization
Atom -
Field Interaction
Driven, Damped Two Level Atom
INTERACTION BETWEEN EM WAVES AND OPTICAL MEDIA
Attenuation and Dispersion of Waves
Density Matrix and Ensemble Averaging
Laser Devices
QUANTUM STATISTICS
General Background and Three Kinds of Particles
Statistics for Distinguishable particles
Statistics for Fermions and Fermi Distribution Function
Statistics for Boson and Bose Einstein Distribution
SEMICONDUCTOR STATISTICS
Carrier Densities in Intrinsic Semiconductors
Carrier Densities in Extrinsic Semiconductors
Fermi Level in Extrinsic Semiconductors
CHARGE TRANSPORT IN SEMICONDUCTORS
Drift and Diffusion Currents
Transport Coefficients
Equilibrium and Non-Equilibrium
Recombination and Generation Currents
P-N JUNCTION DIODE
The Junction Interface in Equilibrium
The Junction Interface Under Bias
The Diode I-V
Applications of P-N Junction Diodes
THE BIPOLAR JUNCTION TRANSISTOR: DEVICE PHYSICS AND TECHNOLOGY
Bipolar Junction Transistor: Overview
The Physics of Transistor Action
Ebers Moll Equations
Base Transit Time and Charge Control Model
METAL OXIDE SILICON FIELD EFFECT TRANSISTORS (MOSFET) I: OVERVIEW OF DEVICE BEHAVIOR AND APPLICATIONS
MOSFET: Overview
Charge Control and Metal-Oxide-Silicon System
NMOS I-V
Applications of MOSFET
METAL OXIDE SILICON FIELD EFFECT TRANSISTORS (MOSFET) II: DEVICE SCALING AND SCHOTTKY CONTACT
Device Scaling: Physical issues and Limitations
Metal -
Semiconductor Contacts
The I-V Behavior in Metal -
Semiconductor Contacts |
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