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Semiconductor Physics Modeling Advanced Techniques(1st Edition)
Authors:
Jamie Flux
Cover Type:Hardcover
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ISBN: B0DDY4M1LV, 979-8336600360
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Book Summary: In "Semiconductor Physics Modeling Advanced Techniques," Experts In The Field Explore The Latest Advancements In Modeling Electronic Structures, Dynamic Processes, And Excited States In Semiconductors. Through A Combination Of Theoretical Concepts And Practical Applications, Readers Will Gain A Deep Understanding Of Quantum Mechanical Models, Molecular Dynamics Simulations, And Monte Carlo Simulations For Semiconductor Charge Transport.What You Will Learn:- Master Density Functional Theory And Its Applications In Modeling Electronic Structures.- Utilize Many-body Perturbation Theory, Such As The GW Approximation, To Explore Semiconductors.- Understand Time-dependent DFT For Modeling Dynamic Processes And Excited States.- Explore Molecular Dynamics Simulations To Gain Insights Into Atomic-scale Processes In Semiconductor Materials.- Apply Monte Carlo Simulations For Stochastic Modeling Of Semiconductor Charge Transport.- Utilize Green's Function Techniques For Studying Electronic Correlations And Transport.- Model Fluid-like Behavior Of Electron Flow At The Nanoscale Using Quantum Hydrodynamic Models.- Harness The Power Of Machine Learning For Predictive Modeling In Semiconductor Physics.- Investigate Topological Insulators And Their Unique Electronic Properties.- Gain Insights Into Spin-orbit Coupling And Its Role In Modern Semiconductor Materials.- Combine DFT With Other Methods To Enhance Modeling Accuracy With Hybrid Functional Methods.- Tackle Systems With Significant Electron Correlations Using Advanced Techniques For Strongly Correlated Electron Systems.- Gain A Deep Understanding Of Mobility In Semiconductors With Impurities And Defects In Disordered Systems.- Examine Electromagnetic Wave Scattering And Its Interaction With Semiconductor Nanostructures.- Model And Simulate Nonlinear Optical Phenomena In Semiconductors.- Explore Advanced Techniques For Modeling Thermal Properties Via Phonons In Phonon Transport Models.- Discover Cutting-edge Approaches To Manage Heat In Densely Packed Devices With Nanoscale Thermal Management Techniques.- Dive Into Modeling The Unique Electronic Properties Of Complex Oxide Materials.- Investigate Materials That Combine Superconductivity With Semiconducting Properties In Superconducting Semiconductors.- Model Materials Suitable For Quantum Computing Applications In Quantum Computing Materials.- Explore Nanofabrication Methods Through Modeling And Simulation Of Top-down Lithographic Techniques.- Discover The Semiconducting Properties Of Two-dimensional Materials Like Graphene.- Investigate The Electron Valley Degree Of Freedom And Its Role In Information Processing In Valleytronics.- Gain Insights Into Electron And Optical Properties In Quantum Dots Through Modeling.- Explore Advancements In Device Modeling For Nanoscale Electronics In Semiconductor Nanoelectronics.- Analyze Electromagnetic Waves Propagating Along Surfaces With Surface Plasmon Polaritons.- Investigate Quantum Phenomena At Low Temperatures And High Magnetic Fields With The Quantum Hall Effect.- Learn About Unconventional Transport Mechanisms In Novel Semiconductor Materials In Anomalous Transport Phenomena.- Harness The Power Of Neuromorphic Computing Materials That Mimic Neural Processes For Computing.- Explore The Long-lived Conductivity Changes Upon Light Exposure With Persistent Photoconductivity.- Understand Mechanical Properties And Failure Mechanisms Under Stress With Fracture Mechanics In Semiconductors.- Gain Insights Into Quantum Decoherence And Its Implications For Semiconductors In Quantum Technologies.- Discover Advances In Modeling Materials For Improved Semiconductor Components With High-K Dielectrics.
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