Skip navigation

Bookboon.com Last ned gratis eBøker og lærebøker

Choose a category

Introduction to Quantum Mechanics

Introduction to Quantum Mechanics
5,0 (11 vurderinger)
ISBN: 978-87-403-1814-2
1 utgave
Sider : 80
  • Pris: 129,00 kr
  • Pris: €13,99
  • Pris: £13,99
  • Pris: ₹250
  • Pris: $13,99
  • Pris: 129,00 kr
  • Pris: 129,00 kr

Last ned GRATIS med 4 enkle steg…

Vi beklager, men for å laste ned våre bøker eller se våre videoer må du ha en nettleser som støtter JavaScript.
Etter å ha oppgitt e-postadressen blir en bekreftelsesmail sendt til din mailbox. Vennligst godkjenn den for å motta vår ukentlig eBok-oppdatering. Eventuell kontaktinformasjon som blir oppgitt, vil ikke bli oppgitt til noen tredjepart.
eLib
Lås opp ditt selskaps læringspotensial
Se demo

Korporat eBibliotek

Utforsk våre Firmaløsninger for ansattes læring

Dette er en Premium-eBok

Bookboon Premium - Få tilgang til over 800 eBøker - uten annonser

Du kan få gratis tilgang til dette i én måned - og 800 andre bøker med Premium-abonnementet. Du kan også kjøpe boken nedenfor

  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: 39,99 kr p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: €5,99 p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: £4,99 p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: ₹299 p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: $3,99 p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: 39,99 kr p/m
  • Start en 30 dagers gratis prøveperiode. Etter prøveperioden: 39,99 kr p/m
eLib
Lås opp ditt selskaps læringspotensial
Klikk her!

Korporat eBibliotek

Utforsk våre Firmaløsninger for ansattes læring

Om boken

  1. Innhold
  2. Beskrivelse

Innhold

  1. A brief historical note on the origin of quantum mechanics
    1. The insuffiency of classical physics 
  2. Fundamental principles and theorems in quantum mechanics 
    1. Describing particles as waves 
    2. The postulates of quantum mechanics 
    3. Eigenvalues and eigenfunctions 
    4. Expansion via eigenfunctions 
    5. Probability current and density
    6. Simultaneous eigenfunctions 
    7. Time-evolution of expectation values 
    8. The Ehrenfest theorem 
    9. Heisenberg’s uncertainty principle 
  3. Solving the Schrödinger equation: bound states and scattering 
    1. Stationary states 
    2. Time-energy uncertainty: what it really means 
    3. Collapse of the wavefunction and superpositions 
    4. Wavefunction properties 
    5. Particle in a potential well 
    6. The δ-function potential 
  4. Quantum harmonic oscillator and scattering 
    1. Harmonic oscillator 
    2. Quantum mechanical scattering 
  5. Quantum mechanics beyond 1D 
    1. Particle in a box 
    2. Harmonic oscillator 
    3. 2D potentials with polar coordinates 
  6. Quantization of spin and other angular momenta 
    1. Orbital angular momentum 
    2. Central potentials and application to the Coulomb potential 
    3. Generalized angular momentum operators 
    4. Quantum spin 
  7. Quantum statistics and exchange forces 
    1. Symmetry of the wavefunction 
    2. The Pauli exclusion principle and its range 
    3. Exchange forces due to the Pauli principle 
  8. Periodic potentials and application to solids 
    1. Bloch functions 
    2. Band structure and the Kronig-Penney model 

Beskrivelse

The aim of this book is to provide the reader with an introduction to quantum mechanics, a physical theory which serves as the foundation for some of the most central areas of physics ranging from condensed matter physics to astrophysics. The basic principles of quantum mechanics are explained along with important belonging theorems. We then proceed to discuss arguably the most central equation in quantum mechanics in detail, namely the Schrödinger equation, and how this may be solved and physically interpreted for various systems. A quantum treatment of particle scattering and the harmonic oscillator model is presented. The book covers how to deal with quantum mechanics in 3D systems and explains how quantum statistics and the Pauli principle give rise to exchange forces. Exchange forces have dramatic consequences experimentally and lie at the heart of phenomena such as ferromagnetism in materials. Finally, we apply quantum mechanics to the treatment of angular momentum operators, such as the electron spin, and also discuss how it may be applied to describe energy bands in solids.

About the author

J.L. holds since 2013 a position as Professor of Physics at the Norwegian University of Science and Technology. His research is focused on theoretical quantum condensed matter physics and he has received several prizes for his Ph.D work on the interplay between superconductivity and magnetism. He has also received the American Physical Society ”Outstanding Referee” award, selected among over 60.000 active referees. In teaching courses such as Classical Mechanics and Particle Physics for both undergraduate and graduate students, he has invariably received high scores from the students for his pedagogical qualities and lectures. His webpage is found here.

This website uses cookies to improve user experience. By using our website you consent to all cookies in accordance with EU regulation.