Lecture Notes. Quantum Theory. Prof. Maximilian Kreuzer. Institute for Theoretical Physics Vienna University of Technology. covering the contents of
|
|
- Willis Peters
- 5 years ago
- Views:
Transcription
1 Lecture Notes Quantum Theory by Prof. Maximilian Kreuzer Institute for Theoretical Physics Vienna University of Technology covering the contents of Quantentheorie I and Quantentheorie II Edition 09/10 Version July 15, 2009
2 Links The current version of the notes, as well as information on lectures and exams, is available at Reports of typos and errors and suggestions for improvements are appreciated, e.g. by to (if possible after cross-checking with the current version). Preface The structure of these lecture notes is mainly motivated by the curricula of the bachelor s and master s programs of the faculty of physics at the Vienna University of Technology, which requires a division of quantum mechanics into two parts. The first part Quantum Theory I: chapters 1 7 should make available the prerequisites for the subsequent lecture on atomic physics and has to be covered in 45 units of 45 minutes each. After historic recollections in the introduction the principles of quantum theory are first illustrated for one-dimensional examples in chapter 2 and then presented in the proper formalism in chapter 3. In chapters 4 and 5 we solve the Schrödinger equation for the spherically symmetric hydrogen atom and treat the quantization and the addition of general angular momenta, respectively. Chapter 6 introduces approximation techniques and chapter 7 initiates relativistic quantum mechanics and derives the Pauli equation and the fine structure corrections in the non-relativistic limit of the Dirac equation. The systematic discussion of symmetries as well as identical particles and many particle theory had to be postponed to part 2, Quantum Theory II: chapters In chapter 8 we start with 3-dimensional scattering theory. Transformations, symmetries and conservation laws are discussed in chapter 9 and applied to non-relativistic and relativistic contexts. In chapter 10 we discuss many particle systems. The Hartree Fock approximation is used as a motivation for the introduction of the occupation number representation and the quantization of the radiation field. These three chapters are largely independent so that their order could be permuted with little modifications. In the last chapter we discuss semiclassical methods and the path integral. Acknowledgements A first draft of these lecture notes was created by Katharina Dobes (chap. 1,6,10), Wolfgang Dungel (chap. 3,11), Florian Hinterschuster (chap. 4,5,9) and Daniel Winklehner (2,7,8,9) as a project work. While the text was then largely rewritten by the lecturer, the draft provided many valuable ideas for the structure and the presentation of the contents. My acknowledgements also go to my colleagues at the Institute for Theoretical Physics for sharing their knowledge and ideas, with special thanks to Harald Grosse (Vienna University), Anton Rebhan and Karl Svozil, whose expertise was of great help, and to the late Wolfgang Kummer, from whom I learned quantum mechanics (and quantum field theory) in the first place. In addition to input from many of the books in the references I took advantage of the excellent lecture notes of Profs. Burgdörfer, Hafner and Kummer. Often as a first and sometimes as a last resort I used Wikipedia and Google. Last but not least, many thanks to the students who are helping to improve these lecture notes by reporting errors and typos.
3 I Contents 1 Introduction Historical notes Limitations of classical physics Blackbody radiation The photoelectric effect Bohr s theory of the structure of atoms The Compton effect Interference phenomena Wave Mechanics and the Schrödinger equation The Schrödinger equation Probability density and probability current density Axioms of quantum theory Spreading of free wave packets and uncertainty relation The time-independent Schrödinger equation One-dimensional square potentials and continuity conditions Bound states and the potential well Scattering and the tunneling effect Transfer matrix and scattering matrix The harmonic oscillator Formalism and interpretation Linear algebra and Dirac notation Operator calculus Operators and Hilbert spaces Inequalities Position and momentum representations Convergence, norms and spectra of Hilbert space operators Self-adjoint operators and spectral representation Schrödinger, Heisenberg and interaction picture
4 II 3.5 Ehrenfest theorem and uncertainty relations Harmonic oscillator and ladder operators Coherent states Axioms and interpretation of quantum mechanics Mixed states and the density matrix Measurements and interpretation Schrödinger s cat and the Einstein-Podolsky-Rosen argument Orbital angular momentum and the hydrogen atom The orbital angular momentum Commutation relations Angular momentum and spherical harmonics The hydrogen atom The two particle problem The hydrogen atom Summary Angular Momentum and Spin Quantization of angular momenta Electron spin and the Pauli equation Magnetic fields: Pauli equation and spin-orbit coupling Addition of Angular Momenta Clebsch-Gordan coefficients Singlet, triplet and EPR correlations Methods of Approximation Rayleigh Schrödinger perturbation theory Degenerate time independent perturbation theory The fine structure of the hydrogen atom External fields: Zeeman effect and Stark effect The variational method (Riesz) Ground state energy of the helium atom
5 III Applying the variational method and the virial theorem Time dependent perturbation theory Absorption and emission of electromagnetic radiation Relativistic Quantum Mechanics The Dirac-equation Nonrelativistic limit and the Pauli-equation Scattering Theory The central potential Differential cross section and frames of reference Asymptotic expansion and scattering amplitude Partial wave expansion Expansion of a plane wave in spherical harmonics Scattering amplitude and phase shift Example: Scattering by a square well Interpretation of the phase shift The Lippmann-Schwinger equation The Born series Application: Coulomb scattering and the Yukawa potential Wave operator, transition operator and S-matrix Symmetries and transformation groups Transformation groups Noether theorem and quantization Rotation of spins Tensor operators and the Wigner Eckhart theorem Symmetries of relativistic quantum mechanics Lorentz covariance of the Dirac-equation Spin and helicity Dirac conjugation and Lorentz tensors Parity, time reversal and charge-conjugation
6 IV Discrete symmetries of the Dirac equation Gauge invariance and the Aharonov Bohm effect Many particle systems Identical particles and (anti)symmetrization Electron-electron scattering Selfconsistent fields and Hartree-Fock Occupation number representation Quantization of the radiation field Interaction of matter and radiation Phonons and quasiparticles WKB and the path integral WKB approximation Bound states, tunneling, scattering and EKB The path integral References 211
QUANTUM MECHANICS. Franz Schwabl. Translated by Ronald Kates. ff Springer
Franz Schwabl QUANTUM MECHANICS Translated by Ronald Kates Second Revised Edition With 122Figures, 16Tables, Numerous Worked Examples, and 126 Problems ff Springer Contents 1. Historical and Experimental
More informationQuantum Mechanics: Fundamentals
Kurt Gottfried Tung-Mow Yan Quantum Mechanics: Fundamentals Second Edition With 75 Figures Springer Preface vii Fundamental Concepts 1 1.1 Complementarity and Uncertainty 1 (a) Complementarity 2 (b) The
More informationLECTURES ON QUANTUM MECHANICS
LECTURES ON QUANTUM MECHANICS GORDON BAYM Unitsersity of Illinois A II I' Advanced Bock Progrant A Member of the Perseus Books Group CONTENTS Preface v Chapter 1 Photon Polarization 1 Transformation of
More informationQUANTUM MECHANICS SECOND EDITION G. ARULDHAS
QUANTUM MECHANICS SECOND EDITION G. ARULDHAS Formerly, Professor and Head of Physics and Dean, Faculty of Science University of Kerala New Delhi-110001 2009 QUANTUM MECHANICS, 2nd Ed. G. Aruldhas 2009
More informationLectures on Quantum Mechanics
Lectures on Quantum Mechanics Steven Weinberg The University of Texas at Austin CAMBRIDGE UNIVERSITY PRESS Contents PREFACE page xv NOTATION xviii 1 HISTORICAL INTRODUCTION 1 1.1 Photons 1 Black-body radiation
More informationQuantum. Mechanics. Y y. A Modern Development. 2nd Edition. Leslie E Ballentine. World Scientific. Simon Fraser University, Canada TAIPEI BEIJING
BEIJING TAIPEI Quantum Mechanics A Modern Development 2nd Edition Leslie E Ballentine Simon Fraser University, Canada Y y NEW JERSEY LONDON SINGAPORE World Scientific SHANGHAI HONG KONG CHENNAI Contents
More informationList of Comprehensive Exams Topics
List of Comprehensive Exams Topics Mechanics 1. Basic Mechanics Newton s laws and conservation laws, the virial theorem 2. The Lagrangian and Hamiltonian Formalism The Lagrange formalism and the principle
More informationQuantum Physics in the Nanoworld
Hans Lüth Quantum Physics in the Nanoworld Schrödinger's Cat and the Dwarfs 4) Springer Contents 1 Introduction 1 1.1 General and Historical Remarks 1 1.2 Importance for Science and Technology 3 1.3 Philosophical
More informationQuantum Physics II (8.05) Fall 2002 Outline
Quantum Physics II (8.05) Fall 2002 Outline 1. General structure of quantum mechanics. 8.04 was based primarily on wave mechanics. We review that foundation with the intent to build a more formal basis
More informationNotes on Quantum Mechanics
Notes on Quantum Mechanics K. Schulten Department of Physics and Beckman Institute University of Illinois at Urbana Champaign 405 N. Mathews Street, Urbana, IL 61801 USA (April 18, 2000) Preface i Preface
More informationPractical Quantum Mechanics
Siegfried Flügge Practical Quantum Mechanics With 78 Figures Springer-Verlag Berlin Heidelberg New York London Paris Tokyo Hong Kong Barcelona Budapest Contents Volume I I. General Concepts 1. Law of probability
More informationP. W. Atkins and R. S. Friedman. Molecular Quantum Mechanics THIRD EDITION
P. W. Atkins and R. S. Friedman Molecular Quantum Mechanics THIRD EDITION Oxford New York Tokyo OXFORD UNIVERSITY PRESS 1997 Introduction and orientation 1 Black-body radiation 1 Heat capacities 2 The
More informationPart I. Many-Body Systems and Classical Field Theory
Part I. Many-Body Systems and Classical Field Theory 1. Classical and Quantum Mechanics of Particle Systems 3 1.1 Introduction. 3 1.2 Classical Mechanics of Mass Points 4 1.3 Quantum Mechanics: The Harmonic
More informationAdvanced quantum mechanics Reading instructions
Advanced quantum mechanics Reading instructions All parts of the book are included in the course and are assumed to be read. But of course some concepts are more important than others. The main purpose
More informationMOLECULAR SPECTROSCOPY
MOLECULAR SPECTROSCOPY First Edition Jeanne L. McHale University of Idaho PRENTICE HALL, Upper Saddle River, New Jersey 07458 CONTENTS PREFACE xiii 1 INTRODUCTION AND REVIEW 1 1.1 Historical Perspective
More informationQuantum Mechanics: Foundations and Applications
Arno Böhm Quantum Mechanics: Foundations and Applications Third Edition, Revised and Enlarged Prepared with Mark Loewe With 96 Illustrations Springer-Verlag New York Berlin Heidelberg London Paris Tokyo
More informationFYS-6306 QUANTUM THEORY OF MOLECULES AND NANOSTRUCTURES
i FYS-6306 QUANTUM THEORY OF MOLECULES AND NANOSTRUCTURES Credit units: 6 ECTS Lectures: 48 h Tapio Rantala, prof. Tue 10 12 SC203 SG219 8 10 SG312 FirstName.LastName@tut.fi http://www.tut.fi/~trantala/opetus/
More informationPHYSICS-PH (PH) Courses. Physics-PH (PH) 1
Physics-PH (PH) 1 PHYSICS-PH (PH) Courses PH 110 Physics of Everyday Phenomena (GT-SC2) Credits: 3 (3-0-0) Fundamental concepts of physics and elementary quantitative reasoning applied to phenomena in
More informationDEPARTMENT OF PHYSICS
Department of Physics 1 DEPARTMENT OF PHYSICS Office in Engineering Building, Room 124 (970) 491-6206 physics.colostate.edu (http://www.physics.colostate.edu) Professor Jacob Roberts, Chair Undergraduate
More informationLecture 4 Quantum mechanics in more than one-dimension
Lecture 4 Quantum mechanics in more than one-dimension Background Previously, we have addressed quantum mechanics of 1d systems and explored bound and unbound (scattering) states. Although general concepts
More informationFundamentals of Spectroscopy for Optical Remote Sensing. Course Outline 2009
Fundamentals of Spectroscopy for Optical Remote Sensing Course Outline 2009 Part I. Fundamentals of Quantum Mechanics Chapter 1. Concepts of Quantum and Experimental Facts 1.1. Blackbody Radiation and
More informationA. F. J. Levi 1 EE539: Engineering Quantum Mechanics. Fall 2017.
A. F. J. Levi 1 Engineering Quantum Mechanics. Fall 2017. TTh 9.00 a.m. 10.50 a.m., VHE 210. Web site: http://alevi.usc.edu Web site: http://classes.usc.edu/term-20173/classes/ee EE539: Abstract and Prerequisites
More informationStudy Plan for Ph.D in Physics (2011/2012)
Plan Study Plan for Ph.D in Physics (2011/2012) Offered Degree: Ph.D in Physics 1. General Rules and Conditions:- This plan conforms to the regulations of the general frame of the higher graduate studies
More informationTopics for the Qualifying Examination
Topics for the Qualifying Examination Quantum Mechanics I and II 1. Quantum kinematics and dynamics 1.1 Postulates of Quantum Mechanics. 1.2 Configuration space vs. Hilbert space, wave function vs. state
More informationChapter 1. Introduction
Chapter 1 Introduction The book Introduction to Modern Physics: Theoretical Foundations starts with the following two paragraphs [Walecka (2008)]: At the end of the 19th century, one could take pride in
More informationSymmetries in Quantum Physics
Symmetries in Quantum Physics U. Fano Department of Physics and James Franck Institute University of Chicago Chicago, Illinois A. R. P. Rau Department of Physics and Astronomy louisiana State University
More informationADVANCED QUANTUM MECHANICS
ADVANCED QUANTUM MECHANICS Time: Fri BCD 9:00-12:00 Location: ED 201 Instructor: Oleksandr Voskoboynikov 霍斯科 Phone: 5712121 ext. 54174 Office: 646 ED bld.4 E-mail: vam@faculty.nctu.edu.tw Office hours:
More informationPhysics of atoms and molecules
Physics of atoms and molecules 2nd edition B.H. Bransden and C.J. Joachain Prentice Hall An imprint of Pearson Education Harlow, England London New York Boston San Francisco Toronto Sydney Singapore Hong
More informationThe general solution of Schrödinger equation in three dimensions (if V does not depend on time) are solutions of time-independent Schrödinger equation
Lecture 27st Page 1 Lecture 27 L27.P1 Review Schrödinger equation The general solution of Schrödinger equation in three dimensions (if V does not depend on time) is where functions are solutions of time-independent
More informationStudents are required to pass a minimum of 15 AU of PAP courses including the following courses:
School of Physical and Mathematical Sciences Division of Physics and Applied Physics Minor in Physics Curriculum - Minor in Physics Requirements for the Minor: Students are required to pass a minimum of
More informationChemistry 881 Lecture Topics Fall 2001
Chemistry 881 Lecture Topics Fall 2001 Texts PHYSICAL CHEMISTRY A Molecular Approach McQuarrie and Simon MATHEMATICS for PHYSICAL CHEMISTRY, Mortimer i. Mathematics Review (M, Chapters 1,2,3 & 4; M&S,
More informationFlorian Scheck. Quantum Physics. With 76 Figures, 102 Exercises, Hints and Solutions
Quantum Physics Florian Scheck Quantum Physics With 76 Figures, 102 Exercises, Hints and Solutions 1 3 Professor Dr. Florian Scheck Universität Mainz Institut für Physik, Theoretische Elementarteilchenphysik
More informationGeneralization to Absence of Spherical Symmetry p. 48 Scattering by a Uniform Sphere (Mie Theory) p. 48 Calculation of the [characters not
Scattering of Electromagnetic Waves p. 1 Formalism and General Results p. 3 The Maxwell Equations p. 3 Stokes Parameters and Polarization p. 4 Definition of the Stokes Parameters p. 4 Significance of the
More informationComparing and Improving Quark Models for the Triply Bottom Baryon Spectrum
Comparing and Improving Quark Models for the Triply Bottom Baryon Spectrum A thesis submitted in partial fulfillment of the requirements for the degree of Bachelor of Science degree in Physics from the
More informationCONTENTS. vii. CHAPTER 2 Operators 15
CHAPTER 1 Why Quantum Mechanics? 1 1.1 Newtonian Mechanics and Classical Electromagnetism 1 (a) Newtonian Mechanics 1 (b) Electromagnetism 2 1.2 Black Body Radiation 3 1.3 The Heat Capacity of Solids and
More informationmsqm 2011/8/14 21:35 page 189 #197
msqm 2011/8/14 21:35 page 189 #197 Bibliography Dirac, P. A. M., The Principles of Quantum Mechanics, 4th Edition, (Oxford University Press, London, 1958). Feynman, R. P. and A. P. Hibbs, Quantum Mechanics
More informationChemistry 218 Spring Molecular Structure
Chemistry 218 Spring 2015-2016 Molecular Structure R. Sultan COURSE SYLLABUS Email: rsultan@aub.edu.lb Homepage: http://staff.aub.edu.lb/~rsultan/ Lectures: 12:30-13:45 T, Th. 101 Chemistry Textbook: P.
More informationPotential energy, from Coulomb's law. Potential is spherically symmetric. Therefore, solutions must have form
Lecture 6 Page 1 Atoms L6.P1 Review of hydrogen atom Heavy proton (put at the origin), charge e and much lighter electron, charge -e. Potential energy, from Coulomb's law Potential is spherically symmetric.
More informationChemistry 483 Lecture Topics Fall 2009
Chemistry 483 Lecture Topics Fall 2009 Text PHYSICAL CHEMISTRY A Molecular Approach McQuarrie and Simon A. Background (M&S,Chapter 1) Blackbody Radiation Photoelectric effect DeBroglie Wavelength Atomic
More informationChemistry 3502/4502. Final Exam Part I. May 14, 2005
Advocacy chit Chemistry 350/450 Final Exam Part I May 4, 005. For which of the below systems is = where H is the Hamiltonian operator and T is the kinetic-energy operator? (a) The free particle
More informationPhysics 622: Quantum Mechanics -- Part II --
Physics 622: Quantum Mechanics -- Part II -- Prof. Seth Aubin Office: room 255, Small Hall, tel: 1-3545 Lab: room 069, Small Hall (new wing), tel: 1-3532 e-mail: saaubi@wm.edu web: http://www.physics.wm.edu/~saubin/index.html
More informationQuantum Field Theory. and the Standard Model. !H Cambridge UNIVERSITY PRESS MATTHEW D. SCHWARTZ. Harvard University
Quantum Field Theory and the Standard Model MATTHEW D. Harvard University SCHWARTZ!H Cambridge UNIVERSITY PRESS t Contents v Preface page xv Part I Field theory 1 1 Microscopic theory of radiation 3 1.1
More informationGROUP THEORY IN PHYSICS
GROUP THEORY IN PHYSICS Wu-Ki Tung World Scientific Philadelphia Singapore CONTENTS CHAPTER 1 CHAPTER 2 CHAPTER 3 CHAPTER 4 PREFACE INTRODUCTION 1.1 Particle on a One-Dimensional Lattice 1.2 Representations
More informationMODERN PHYSICS Frank J. Blatt Professor of Physics, University of Vermont
MODERN PHYSICS Frank J. Blatt Professor of Physics, University of Vermont McGRAW-HILL, INC. New York St. Louis San Francisco Auckland Bogota Caracas Lisbon London Madrid Mexico Milan Montreal New Delhi
More informationIndex. 3-j symbol, 415
3-j symbol, 415 absorption spectrum, 22 absorptive power, 488 adjoint, 169 Airy function, 189 algebra, 76 alpha-rays, 160 analytic family of type (A), 281 angular momentum operators, 398 anharmonic oscillator,
More informationQuantum Field Theory 2 nd Edition
Quantum Field Theory 2 nd Edition FRANZ MANDL and GRAHAM SHAW School of Physics & Astromony, The University of Manchester, Manchester, UK WILEY A John Wiley and Sons, Ltd., Publication Contents Preface
More informationTENTATIVE SYLLABUS INTRODUCTION
Physics 615: Overview of QFT Fall 2010 TENTATIVE SYLLABUS This is a tentative schedule of what we will cover in the course. It is subject to change, often without notice. These will occur in response to
More informationDEPARTMENT OF PHYSICS UNIVERSITY OF PUNE PUNE SYLLABUS for the M.Phil. (Physics ) Course
DEPARTMENT OF PHYSICS UNIVERSITY OF PUNE PUNE - 411007 SYLLABUS for the M.Phil. (Physics ) Course Each Student will be required to do 3 courses, out of which two are common courses. The third course syllabus
More informationNERS 311 Current Old notes notes Chapter Chapter 1: Introduction to the course 1 - Chapter 1.1: About the course 2 - Chapter 1.
NERS311/Fall 2014 Revision: August 27, 2014 Index to the Lecture notes Alex Bielajew, 2927 Cooley, bielajew@umich.edu NERS 311 Current Old notes notes Chapter 1 1 1 Chapter 1: Introduction to the course
More informationPRINCIPLES OF PHYSICS. \Hp. Ni Jun TSINGHUA. Physics. From Quantum Field Theory. to Classical Mechanics. World Scientific. Vol.2. Report and Review in
LONDON BEIJING HONG TSINGHUA Report and Review in Physics Vol2 PRINCIPLES OF PHYSICS From Quantum Field Theory to Classical Mechanics Ni Jun Tsinghua University, China NEW JERSEY \Hp SINGAPORE World Scientific
More informationPhysics 622: Quantum Mechanics -- Part II --
Physics 622: Quantum Mechanics -- Part II -- Instructors Prof. Seth Aubin Office: room 255, Small Hall, tel: 1-3545 Lab: room 069, Small Hall (new wing), tel: 1-3532 e-mail: saaubi@wm.edu web: http://www.physics.wm.edu/~saubin/index.html
More information(8) Atomic Physics (1½l, 1½p)
10390-716(8) Atomic Physics (1½l, 1½p) 2018 Course summary: Multi-electron atoms, exclusion principle, electrostatic interaction and exchange degeneracy, Hartree model, angular momentum coupling: L-S and
More informationRelativistic corrections of energy terms
Lectures 2-3 Hydrogen atom. Relativistic corrections of energy terms: relativistic mass correction, Darwin term, and spin-orbit term. Fine structure. Lamb shift. Hyperfine structure. Energy levels of the
More informationChemistry 3502/4502. Final Exam Part I. May 14, 2005
Chemistry 3502/4502 Final Exam Part I May 14, 2005 1. For which of the below systems is = where H is the Hamiltonian operator and T is the kinetic-energy operator? (a) The free particle (e) The
More informationIntroduction to Modern Physics
SECOND EDITION Introduction to Modern Physics John D. McGervey Case Western Reserve University Academic Press A Subsidiary of Harcourt Brace Jovanovich Orlando San Diego San Francisco New York London Toronto
More informationQUANTUM MECHANICS OF ONE- AND TWO-ELECTRON ATOMS
QUANTUM MECHANICS OF ONE- AND TWO-ELECTRON ATOMS QUANTUM MECHANICS OF ONE- AND TWO-ELECTRON ATOMS HANS A. BETHE AND EDWIN E. SALPETER Cornell University Ithaca, New York A PLENUM/ROSETTA EDITION Library
More informationAdvanced Quantum Physics
Advanced Quantum Physics Aim of the course Building upon the foundations of wave mechanics, this course will introduce and develop the broad field of quantum physics including: Quantum mechanics of point
More informationCoupling of Angular Momenta Isospin Nucleon-Nucleon Interaction
Lecture 5 Coupling of Angular Momenta Isospin Nucleon-Nucleon Interaction WS0/3: Introduction to Nuclear and Particle Physics,, Part I I. Angular Momentum Operator Rotation R(θ): in polar coordinates the
More informationQUANTUM MECHANICS USING COMPUTER ALGEBRA
QUANTUM MECHANICS USING COMPUTER ALGEBRA Includes Sample Programs in C++, SymbolicC++, Maxima, Maple, and Mathematica 2nd Edition This page intentionally left blank QUANTUM MECHANICS USING COMPUTER ALGEBRA
More informationQuantum Physics III (8.06) Spring 2007 FINAL EXAMINATION Monday May 21, 9:00 am You have 3 hours.
Quantum Physics III (8.06) Spring 2007 FINAL EXAMINATION Monday May 21, 9:00 am You have 3 hours. There are 10 problems, totalling 180 points. Do all problems. Answer all problems in the white books provided.
More informationThe Photoelectric Effect
The Photoelectric Effect Light can strike the surface of some metals causing an electron to be ejected No matter how brightly the light shines, electrons are ejected only if the light has sufficient energy
More informationQuantum Field Theory. Kerson Huang. Second, Revised, and Enlarged Edition WILEY- VCH. From Operators to Path Integrals
Kerson Huang Quantum Field Theory From Operators to Path Integrals Second, Revised, and Enlarged Edition WILEY- VCH WILEY-VCH Verlag GmbH & Co. KGaA I vh Contents Preface XIII 1 Introducing Quantum Fields
More informationATOMIC SPECTROSCOPY: Introduction to the Theory of Hyperfine Structure
ATOMIC SPECTROSCOPY: Introduction to the Theory of Hyperfine Structure ATOMIC SPECTROSCOPY: Introduction to the Theory of Hyperfine Structure ANATOLI ANDREEV M.V. Lomonosov Moscow State University Moscow.
More informationParadigms in Physics: Quantum Mechanics
Paradigms in Physics: Quantum Mechanics David H. McIntyre Corinne A. Manogue Janet Tate Oregon State University 23 November 2010 Copyright 2010 by David H. McIntyre, Corinne A. Manogue, Janet Tate CONTENTS
More informationMany-Body Problems and Quantum Field Theory
Philippe A. Martin Francois Rothen Many-Body Problems and Quantum Field Theory An Introduction Translated by Steven Goldfarb, Andrew Jordan and Samuel Leach Second Edition With 102 Figures, 7 Tables and
More informationTheory and Experiment
Theory and Experiment Mark Beck OXPORD UNIVERSITY PRESS Contents Table of Symbols Preface xiii xix 1 MATHEMATICAL PRELIMINARIES 3 1.1 Probability and Statistics 3 1.2 LinearAlgebra 9 1.3 References 17
More informationSpectra of Atoms and Molecules. Peter F. Bernath
Spectra of Atoms and Molecules Peter F. Bernath New York Oxford OXFORD UNIVERSITY PRESS 1995 Contents 1 Introduction 3 Waves, Particles, and Units 3 The Electromagnetic Spectrum 6 Interaction of Radiation
More informationSelect/Special Topics in Atomic Physics Prof. P.C. Deshmukh Department Of Physics Indian Institute of Technology, Madras
Select/Special Topics in Atomic Physics Prof. P.C. Deshmukh Department Of Physics Indian Institute of Technology, Madras Lecture - 37 Stark - Zeeman Spectroscopy Well, let us continue our discussion on
More informationThe general solution of Schrödinger equation in three dimensions (if V does not depend on time) are solutions of time-independent Schrödinger equation
Lecture 17 Page 1 Lecture 17 L17.P1 Review Schrödinger equation The general solution of Schrödinger equation in three dimensions (if V does not depend on time) is where functions are solutions of time-independent
More informationFACULTY OF SCIENCES SYLLABUS FOR. B.Sc. (Non-Medical) PHYSICS PART-II. (Semester: III, IV) Session: , MATA GUJRI COLLEGE
FACULTY OF SCIENCES SYLLABUS FOR B.Sc. (Non-Medical) PHYSICS PART-II (Semester: III, IV) Session: 2017 2018, 2018-2019 MATA GUJRI COLLEGE FATEHGARH SAHIB-140406, PUNJAB ----------------------------------------------------------
More informationIntroduction to particle physics Lecture 3: Quantum Mechanics
Introduction to particle physics Lecture 3: Quantum Mechanics Frank Krauss IPPP Durham U Durham, Epiphany term 2010 Outline 1 Planck s hypothesis 2 Substantiating Planck s claim 3 More quantisation: Bohr
More informationINTRODUCTION TO THE STRUCTURE OF MATTER
INTRODUCTION TO THE STRUCTURE OF MATTER A Course in Modern Physics John J. Brehm and William J. Mullin University of Massachusetts Amherst, Massachusetts Fachberelch 5?@8hnlsdie Hochschule Darmstadt! HochschulstraSa
More informationSolutions to exam : 1FA352 Quantum Mechanics 10 hp 1
Solutions to exam 6--6: FA35 Quantum Mechanics hp Problem (4 p): (a) Define the concept of unitary operator and show that the operator e ipa/ is unitary (p is the momentum operator in one dimension) (b)
More informationLecture notes for QFT I (662)
Preprint typeset in JHEP style - PAPER VERSION Lecture notes for QFT I (66) Martin Kruczenski Department of Physics, Purdue University, 55 Northwestern Avenue, W. Lafayette, IN 47907-036. E-mail: markru@purdue.edu
More informationCOPYRIGHTED MATERIAL. Index
347 Index a AC fields 81 119 electric 81, 109 116 laser 81, 136 magnetic 112 microwave 107 109 AC field traps see Traps AC Stark effect 82, 84, 90, 96, 97 101, 104 109 Adiabatic approximation 3, 10, 32
More informationOutline Chapter 9 The Atom Photons Photons The Photoelectron Effect Photons Photons
Outline Chapter 9 The Atom 9-1. Photoelectric Effect 9-3. What Is Light? 9-4. X-rays 9-5. De Broglie Waves 9-6. Waves of What? 9-7. Uncertainty Principle 9-8. Atomic Spectra 9-9. The Bohr Model 9-10. Electron
More informationQUANTUM MECHANICS. Yehuda B. Band. and Yshai Avishai WITH APPLICATIONS TO NANOTECHNOLOGY AND INFORMATION SCIENCE
QUANTUM MECHANICS WITH APPLICATIONS TO NANOTECHNOLOGY AND INFORMATION SCIENCE Yehuda B. Band Department of Chemistry, Department of Electro-Optics and Department of Physics, and Use Katz Institute for
More informationAtoms and Molecules Interacting with Light Atomic Physics for the Laser Era
Atoms and Molecules Interacting with Light Atomic Physics for the Laser Era Peter van der Straten Universiteit Utrecht, The Netherlands and Harold Metcalf State University of New York, Stony Brook This
More informationSOLUTION MANUAL Fundamental Quantum Mechanics for Engineers. Leon van Dommelen
SOLUTION MANUAL Fundamental Quantum Mechanics for Engineers Leon van Dommelen February 5, 2014 Copyright and Disclaimer Copyright c 2004, 2007, 2008, 2010, 2011, and on, Leon van Dommelen. You are allowed
More informationModern Physics for Scientists and Engineers International Edition, 4th Edition
Modern Physics for Scientists and Engineers International Edition, 4th Edition http://optics.hanyang.ac.kr/~shsong Review: 1. THE BIRTH OF MODERN PHYSICS 2. SPECIAL THEORY OF RELATIVITY 3. THE EXPERIMENTAL
More informationMaxwell s equations. based on S-54. electric field charge density. current density
Maxwell s equations based on S-54 Our next task is to find a quantum field theory description of spin-1 particles, e.g. photons. Classical electrodynamics is governed by Maxwell s equations: electric field
More informationESSEX COUNTY COLLEGE Mathematics and Physics Division PHY 203 General Physics III Course Outline
ESSEX COUNTY COLLEGE Mathematics and Physics Division PHY 203 General Physics III Course Outline Course Number & Name: PHY 203 General Physics III Credit Hours: 5.0 Contact Hours: 7.0 Lecture/Lab: 7.0
More informationQuantum Electrodynamics Test
MSc in Quantum Fields and Fundamental Forces Quantum Electrodynamics Test Monday, 11th January 2010 Please answer all three questions. All questions are worth 20 marks. Use a separate booklet for each
More informationTHE NATURE OF THE ATOM. alpha particle source
chapter THE NATURE OF THE ATOM www.tutor-homework.com (for tutoring, homework help, or help with online classes) Section 30.1 Rutherford Scattering and the Nuclear Atom 1. Which model of atomic structure
More informationPhysics 606, Quantum Mechanics, Final Exam NAME ( ) ( ) + V ( x). ( ) and p( t) be the corresponding operators in ( ) and x( t) : ( ) / dt =...
Physics 606, Quantum Mechanics, Final Exam NAME Please show all your work. (You are graded on your work, with partial credit where it is deserved.) All problems are, of course, nonrelativistic. 1. Consider
More informationQuantum Mechanics: Genesis and Achievements
Quantum Mechanics: Genesis and Achievements Alexander Komech Quantum Mechanics: Genesis and Achievements Alexander Komech Faculty of Mathematics University of Vienna Vienna, Austria Resume The intent of
More informationQuantum Theory and Atomic Structure. Quantum Mechanics. Quantum Theory and Atomic Structure. 7.3 The Wave-Particle Duality of Matter and Energy
Chapter 7 Quantum Theory and Atomic Structure Chap 7-1 Quantum Theory and Atomic Structure 7.1 The Nature of Light 7.2 Atomic Spectra 7.3 The Wave-Particle Duality of Matter and Energy 7.4 The Quantum-Mechanical
More informationChapter 7. Quantum Theory and Atomic Structure. Quantum Mechanics. Chap 7-1
Chapter 7 Quantum Theory and Atomic Structure Chap 7-1 Quantum Theory and Atomic Structure 7.1 The Nature of Light 7.2 Atomic Spectra 7.3 The Wave-Particle Duality of Matter and Energy 7.4 The Quantum-Mechanical
More informationThe Quantum Theory of Fields. Volume I Foundations Steven Weinberg
The Quantum Theory of Fields Volume I Foundations Steven Weinberg PREFACE NOTATION x x xxv 1 HISTORICAL INTRODUCTION 1 1.1 Relativistic Wave Mechanics 3 De Broglie waves q Schrödinger-Klein-Gordon wave
More informationRelativistic Waves and Quantum Fields
Relativistic Waves and Quantum Fields (SPA7018U & SPA7018P) Gabriele Travaglini December 10, 2014 1 Lorentz group Lectures 1 3. Galileo s principle of Relativity. Einstein s principle. Events. Invariant
More information10/17/11. Chapter 7. Quantum Theory and Atomic Structure. Amplitude (intensity) of a wave. Quantum Theory and Atomic Structure
Quantum Theory and Atomic Structure Chapter 7 7. The Nature of Light Quantum Theory and Atomic Structure 7. Atomic Spectra 7. The Wave-Particle Duality of Matter and Energy 7.4 The Quantum-Mechanical Model
More informationLecture #1. Review. Postulates of quantum mechanics (1-3) Postulate 1
L1.P1 Lecture #1 Review Postulates of quantum mechanics (1-3) Postulate 1 The state of a system at any instant of time may be represented by a wave function which is continuous and differentiable. Specifically,
More informationMaxwell s equations. electric field charge density. current density
Maxwell s equations based on S-54 Our next task is to find a quantum field theory description of spin-1 particles, e.g. photons. Classical electrodynamics is governed by Maxwell s equations: electric field
More informationPHYSICS OF SEMICONDUCTORS AND THEIR HETEROSTRUCTURES
PHYSICS OF SEMICONDUCTORS AND THEIR HETEROSTRUCTURES Jasprit Singh University of Michigan McGraw-Hill, Inc. New York St. Louis San Francisco Auckland Bogota Caracas Lisbon London Madrid Mexico Milan Montreal
More informationPart III. Interacting Field Theory. Quantum Electrodynamics (QED)
November-02-12 8:36 PM Part III Interacting Field Theory Quantum Electrodynamics (QED) M. Gericke Physics 7560, Relativistic QM 183 III.A Introduction December-08-12 9:10 PM At this point, we have the
More informationPHYSICS. Course Syllabus. Section 1: Mathematical Physics. Subject Code: PH. Course Structure. Electromagnetic Theory
PHYSICS Subject Code: PH Course Structure Sections/Units Topics Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Section 8 Mathematical Physics Classical Mechanics Electromagnetic
More informationPHYSICAL SCIENCES EXAM SCHEME TIME: 3 HOURS MAXIMUM MARKS: 200
CSIR-UGC (NET) EXAM FOR AWARD OF JUNIOR RESEARCH FELLOWSHIP AND ELIGIBILITY FOR LECTURERSHIP PHYSICAL SCIENCES EXAM SCHEME TIME: 3 HOURS MAXIMUM MARKS: 200 CSIR-UGC (NET) Exam for Award of Junior Research
More informationPlanck s Quantum Hypothesis Blackbody Radiation
Planck s Quantum Hypothesis Blackbody Radiation The spectrum of blackbody radiation has been measured(next slide); it is found that the frequency of peak intensity increases linearly with temperature.
More informationPhysics 221B Spring 2018 Notes 43 Introduction to Relativistic Quantum Mechanics and the Klein-Gordon Equation
Copyright c 2018 by Robert G. Littlejohn Physics 221B Spring 2018 Notes 43 Introduction to Relativistic Quantum Mechanics and the Klein-Gordon Equation 1. Introduction We turn now to relativistic quantum
More informationEnergy Level Energy Level Diagrams for Diagrams for Simple Hydrogen Model
Quantum Mechanics and Atomic Physics Lecture 20: Real Hydrogen Atom /Identical particles http://www.physics.rutgers.edu/ugrad/361 physics edu/ugrad/361 Prof. Sean Oh Last time Hydrogen atom: electron in
More information