Date | Teacher | Place | Topic | Lecture notes / comments |
20.08.2012 | Morten Hjorth-Jensen (MHJ) | Lille Fysiske Auditorium (LFA) | Introduction to the course | Presentation of the course, with syllabus, examination form etc. Discussion of physical systems and wave functions for bosons and fermions. Lecture notes, Shavitt and Bartlett chapter 1, Raimes chapter 1 and Gross, Runge and Heinonen (GRH) chapter 1. |
22.08.2012 | MHJ | LFA | Second quantization | We discuss systems of fermions and bosons, lecture notes, Shavitt and Bartlett chapter 3, Raimes chapter 2 |
23.08.2012 | Gustav Bårdsen (GB) | Solution of weekly exercises, room FØ364 | No exercise session first week | |
27.08.2012 | MHJ | LFA | Second quantization | Wave functions for fermions and bosons, continuation from last week. Representation of operators in second quantization. Lecture notes, Shavitt and Bartlett chapter 3 and Raimes chapter 2 |
29.08.2012 | Gustav Bårdsen | LFA | Second quantization | Continuation of previous lecture. |
30.08.2012 | Gustav Bårdsen (GB) | FØ364 | Exercises 1 and 2 | |
03.09.2012 | MHJ | LFA | Second quantization | We discuss the representation of quantum mechanical operators in the second quantization representation. We start also discussing Wick's theorem. |
05.09.2012 | MHJ | LFA | Matrix elements and Wick's theorem | We introduce Wick's theorem and how to simplify calculations of expectation values. We discuss also a diagrammatic representation of operators. We start also discussion the particle-hole representation. Lecture notes, Shavitt and Bartlett chapter 3.1-3.6 and 4.1-4.4 and Raimes appendix VII. |
06.09.2012 | MHJ | FØ364 | Exercises 3, 4 and 5 | |
10.09.2012 | MHJ | LFA | Wick's theorem and diagrammatic representation of matrix elements | Lecture notes, Shavitt and Bartlett chapter 4 and Raimes chapter 7. We discuss also the particle-hole representation of operators. |
12.09.2012 | MHJ | LFA | Diagrammatic representation of matrix elements | We discuss also how to represent the kinetic energy and density operators in a diagrammatic form. Lecture notes, Shavitt and Bartlett chapter 4 and Raimes chapter 7. |
13.09.2012 | GB | FØ364 | Exercises | |
17.09.2012 | MHJ | LFA | Diagrams and quantum mechanical expectation values | Lecture notes and Shavitt and Bartlett chapters 4.1-4-4 for the diagrammatic representation. |
19.09.2012 | MHJ | LFA | Diagrams and Hartree-Fock theory | Lecture notes for the Hartree-Fock approach, Shavitt and Bartlett chapters 4.1-4-4 for the diagrammatic representation. |
20.09.2012 | GB | FØ364 | Exercises 8-11 | For exercise 11, the computation of the three-body term is optional. |
24.09.2012 | MHJ | LFA | Hartree-Fock theory and Thouless' theorem | Lecture notes |
26.09.2012 | MHJ | LFA | Stability of Hartree-Fock equations | Lecture notes. |
27.09.2012 | GB | FØ364 | Exercises 12, 13 a, b and c | |
01.10.2012 | MHJ | LFA | Summary of Hartree-Fock theory and the electron gas. | Lecture notes. We will discuss the stability of the Hartree-Fock equations and Koopman's theorem. We present also the classical example of Hartree-Fock theory, the so-called electron gas. |
03.10.2012 | MHJ | LFA | Electron gas and configuration interaction theory | Lecture notes. We continue our discussion of the electron gas and start with configuration interaction theory. |
04.10.2012 | GB | FØ364 | Exercises 14, 16 and 18 | |
08.10.2012 | MHJ | LFA | Configuration interaction theory and presentation of midterm exam | Lecture notes. We continue our discussion of configuration interaction theories. |
10.10.2012 | MHJ | LFA | No lectures due to midterm exam | |
11.10.2012 | No exercises | Midterm exam | The midterm exam is presented on Monday 8 during the lecture 8-10am and has to be handed in on Monday the 15th at noon. | |
15.10.2012 | MHJ | LFA | CI theory, final part | Lecture notes |
17.10.2012 | MHJ | LFA | Resume CI and begin perturbation theory | Lecture notes |
18.10.2012 | MHJ | FØ364 | Exercises | Finalize exercise 18 and exercise 19. The exercises will be solved on the blackboard since the electron gas results will be used later in our discussion of density functional theory. |
22.10.2012 | MHJ | LFA | Many-body perturbation theory | Lecture notes and Shavitt and Bartlett chapters 2 and 5. Derivation of Brillouin-Wigner and Rayleigh-Schroedinger perturbation theory. Definition of model spaces. |
24.10.2012 | MHJ | LFA | Many-body perturbation theory | Derivation of Brillouin-Wigner and Rayleigh-Schroedinger perturbation theory. |
25.10.2012 | MHJ | FØ364 | End of exercise 19. | |
29.10.2012 | MHJ | LFA | Many-body perturbation theory | Diagram rules and their derivations, with various examples. |
31.10.2012 | MHJ | LFA | Many-body perturbation theory | Diagrams and their corresponding rules with examples. |
01.11.2012 | GB | FØ364 | Exercises 24, 25 and 28 | |
05.11.2012 | MHJ | LFA | Many-body perturbation theory | Lecture notes, Shavitt and Bartlett chapter 5-6 and Raimes 7-9 Discussion of time-dependent theory, adiabatic hypothesis and Goldstone's linked diagram theorem. |
07.11.2012 | MHJ | LFA | Many-body perturbation theory | Lecture notes, Shavitt and Bartlett chapter 5-6 and Raimes 7-9. Discussion of time-dependent perturbation theory, Goldstone's theorem, Wick's theorem for time-dependent products and Gell-Mann and Low's theorem. |
08.11.2012 | GB | FØ364 | Exercises 26 and 30 | |
12.11.2012 | MHJ | LFA | Summary of Many-body perturbation theory and begin Coupled cluster theory | |
14.11.2012 | MHJ | LFA | Coupled cluster theory | Lecture notes and chpater 9 of Shavitt and Bartlett |
15.11.2012 | GB | FØ364 | Exercises 31 a, b, c, and d | |
19.11.2012 | MHJ | LFA | Coupled-cluster theory | Lecture notes and Shavitt and Bartlett chapters 9 and 10. |
21.11.2012 | MHJ | LFA | Coupled-cluster theory | |
22.11.2012 | GB | FØ364 | Exercises | Exercise 33, parts e, f, g, h and i. |
26.11.2012 | MHJ | LFA | Density functional theory | Lecture notes |
28.11.2011 | MHJ | LFA | Summary and brief link with density functional theory | Lecture notes and last lecture. Summary of the course and discussion of exam. |
11.12.2012 | Final written exam | Best wishes to you all! |
Teaching plan
Published Aug. 19, 2012 1:14 PM
- Last modified Nov. 28, 2012 11:43 AM