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Viser: Finite Elements in Action - Modeling Quantum Mechanics and Electrodynamics in Nanoscale Systems
Finite Elements in Action Vital Source e-bog
L. Ramdas Ram-Mohan
(2026)
Finite Elements in Action Vital Source e-bog
L. Ramdas Ram-Mohan
(2026)
Finite Elements in Action Vital Source e-bog
L. Ramdas Ram-Mohan
(2026)
Finite Elements in Action
Modeling Quantum Mechanics and Electrodynamics in Nanoscale Systems
L. Ramdas Ram-Mohan
(2026)
Sprog: Engelsk
om ca. 12 hverdage
Detaljer om varen
- 1. Udgave
- Vital Source searchable e-book (Fixed pages)
- Udgiver: Oxford University Press (Marts 2026)
- ISBN: 9780198975656
The central focus of this textbook is the elucidation of the interplay between the principle of stationary action and Schrödinger's equation, and its solution using the finite element method (FEM), a method of solving differential equations, in physical systems whose dimensions are on the order of nanometers. The treatment of the dynamics of electrons in such systems deserves a quantum mechanical description and typical applications at the nanoscale also require the modeling of electrodynamic fields. For instance, nanoscale semiconductor laser design requires the interplay between electrons and photons to be modeled simultaneously.
Aimed at graduate students and researchers in nanoscale systems, materials growth, optoelectronics, engineering, physics, and chemistry, as well as electrical engineers, mechanical engineers, computational scientists, and quantum computer developers, this book explores the development of variational methods and their implementation for several physical examples in the framework of the FEM and addresses issues that are very common in modeling nanoscale systems.
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.
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Detaljer om varen
- 1. Udgave
- Vital Source 180 day rentals (fixed pages)
- Udgiver: Oxford University Press (Marts 2026)
- ISBN: 9780198975656R180
The central focus of this textbook is the elucidation of the interplay between the principle of stationary action and Schrödinger's equation, and its solution using the finite element method (FEM), a method of solving differential equations, in physical systems whose dimensions are on the order of nanometers. The treatment of the dynamics of electrons in such systems deserves a quantum mechanical description and typical applications at the nanoscale also require the modeling of electrodynamic fields. For instance, nanoscale semiconductor laser design requires the interplay between electrons and photons to be modeled simultaneously.
Aimed at graduate students and researchers in nanoscale systems, materials growth, optoelectronics, engineering, physics, and chemistry, as well as electrical engineers, mechanical engineers, computational scientists, and quantum computer developers, this book explores the development of variational methods and their implementation for several physical examples in the framework of the FEM and addresses issues that are very common in modeling nanoscale systems.
Online udgaven er tilgængelig: 180 dage fra købsdato.
Offline udgaven er tilgængelig: 180 dage fra købsdato.
Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 2 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- 1. Udgave
- Vital Source 365 day rentals (fixed pages)
- Udgiver: Oxford University Press (Marts 2026)
- ISBN: 9780198975656R365
The central focus of this textbook is the elucidation of the interplay between the principle of stationary action and Schrödinger's equation, and its solution using the finite element method (FEM), a method of solving differential equations, in physical systems whose dimensions are on the order of nanometers. The treatment of the dynamics of electrons in such systems deserves a quantum mechanical description and typical applications at the nanoscale also require the modeling of electrodynamic fields. For instance, nanoscale semiconductor laser design requires the interplay between electrons and photons to be modeled simultaneously.
Aimed at graduate students and researchers in nanoscale systems, materials growth, optoelectronics, engineering, physics, and chemistry, as well as electrical engineers, mechanical engineers, computational scientists, and quantum computer developers, this book explores the development of variational methods and their implementation for several physical examples in the framework of the FEM and addresses issues that are very common in modeling nanoscale systems.
Bookshelf online: 365 dage fra købsdato.
Offline udgaven er tilgængelig: 365 dage fra købsdato.
Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 2 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- Hardback: 528 sider
- Udgiver: Oxford University Press (Marts 2026)
- ISBN: 9780199563487
Aimed at graduate students and researchers in nanoscale systems, materials growth, optoelectronics, engineering, physics, and chemistry, as well as electrical engineers, mechanical engineers, computational scientists, and quantum computer developers, this book explores the development of variational methods and their implementation for several physical examples in the framework of the FEM and addresses issues that are very common in modeling nanoscale systems.
Part I - The Action Integral in Quantum Mechanics1: Schrödinger's equation and the action2: Action, FEM and BCs3: Element geometries for 2D and 3D4: Boundary conditions at material interfaces5: Accidental degeneracy in cubic semiconductor quantum dotsPart II - Quantum Scattering6: Quantum scattering in 1D revisited7: 2D quantum waveguides8: Quantum scattering in 2D waveguides9: Open domain quantum scattering with sources and absorbersPart III - Wavefunction Engineering10: Wavefunction engineering of semiconductor nanostructures11: Schrödinger-Poisson self-consistency in layered semiconductor nanostructuresPart IV - Steady-state current distributions12: The Extraordinary Magneto-Resistance effect in metal- semiconductor structures13: Read-head design based on the EMR effectPart V - Electrodynamics14: Fields in electromagnetic waveguides15: Modeling photonic crystals with Hermite FEM16: Cavity Electrodynamics and symmetries17: Dimensional continuation of EM singularities in structures with re-entrant geometry18: The gauge degree of freedom in ElectrodynamicsPart VI - Further applications of FEMA: Derivation of shape functions using group theoryB: Shape functions for 1D, 2D, and 3D finite elementsC: Hermite Least Squares Data Fitting
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