Quantum Field Theory in Condensed Matter [SerienID : 1603]

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Quantum Field Theory in Condensed Matter

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Quantum field theory is nowadays the standard formalism underlying methods to tackle quantum many-body systems. This lecture introduces basic concepts of QFT in the context of Condensed Matter physics. With practical applications in focus the lecture aims at the advanced theory student who intends to start or already started research projects in the field. Basic knowledge of quantum mechanics is a prerequisite. Knowledge of advanced QM concepts like second quantization and basic solid state phyics are advantageous but will be repeated (in swift pace) at the beginning of the lecture.

Tentative scope of the lecture (not necessarily complete):

  • Repetition of second quantization 
  • Effective lattice models in Solid State Physics
  • Single particle Green's functions and Self-energies
  • Perturbation Theory (Feynman diagram technique)
  • Linear response theory (Screening)
  • ...
StudOn Link
physics
theory
quantum field theory
many-body-physics

Semester

Wintersemester 2020/2021

Lehrenden

Prof. Dr. Philipp Hansmann Prof. Dr. Philipp Hansmann

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aktualisiert

2025-12-10 09:27:41

Abonnements

3

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    00:13:23
    # 1
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    Introduction and motivation
    Prof. Dr. Philipp Hansmann
    2020-10-31 Wintersemester 2020/2021
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    00:51:36
    # 2
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    Second quantization 01
    Prof. Dr. Philipp Hansmann
    2020-10-31 Wintersemester 2020/2021
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    00:23:58
    # 3
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    Second quantization 02
    Prof. Dr. Philipp Hansmann
    2020-10-31 Wintersemester 2020/2021
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    00:31:52
    # 4
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    Operators in second quantization 01
    Prof. Dr. Philipp Hansmann
    2020-11-03 Wintersemester 2020/2021
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    00:12:58
    # 5
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    Operators in second quantization 02
    Prof. Dr. Philipp Hansmann
    2020-11-03 Wintersemester 2020/2021
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    00:14:54
    # 6
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    Operators in second quantization 03
    Prof. Dr. Philipp Hansmann
    2020-11-03 Wintersemester 2020/2021
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    00:26:42
    # 7
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    Application of second quantization: Atomic Terms 01
    Prof. Dr. Philipp Hansmann
    2020-11-06 Wintersemester 2020/2021
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    00:28:08
    # 8
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    Application of second quantization: Atomic Terms 02
    Prof. Dr. Philipp Hansmann
    2020-11-08 Wintersemester 2020/2021
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    00:33:37
    # 9
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    Application of second quantization: Atomic Terms 03
    Prof. Dr. Philipp Hansmann
    2020-11-08 Wintersemester 2020/2021
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    00:35:23
    # 10
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    Application of second quantization: SOC and CF operators
    Prof. Dr. Philipp Hansmann
    2020-11-15 Wintersemester 2020/2021
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    00:51:15
    # 11
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    Solid State Reminder: Bloch's Theorem
    Prof. Dr. Philipp Hansmann
    2020-11-15 Wintersemester 2020/2021
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    00:27:15
    # 12
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    Solid State Reminder: Wannier States
    Prof. Dr. Philipp Hansmann
    2020-11-15 Wintersemester 2020/2021
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    00:40:43
    # 13
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    Solid State Reminder: Lattice models 01
    Prof. Dr. Philipp Hansmann
    2020-11-17 Wintersemester 2020/2021
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    01:04:05
    # 14
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    Solid State Reminder: Lattice models 02
    Prof. Dr. Philipp Hansmann
    2020-11-17 Wintersemester 2020/2021
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    00:42:27
    # 15
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    Green's functions: Motivation and Definition
    Prof. Dr. Philipp Hansmann
    2020-11-22 Wintersemester 2020/2021
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    00:30:49
    # 16
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    The causal, non-interacting, fermionic Greens function at T=0
    Prof. Dr. Philipp Hansmann
    2020-11-25 Wintersemester 2020/2021
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    00:31:26
    # 17
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    The thermal Green's function: Imaginary time and Matsubara Frequencies
    Prof. Dr. Philipp Hansmann
    2020-11-22 Wintersemester 2020/2021
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    00:58:25
    # 18
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    Equation of Motion for the Green's function
    Prof. Dr. Philipp Hansmann
    2020-11-27 Wintersemester 2020/2021
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    00:42:40
    # 19
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    Spectral (Lehmann) representation of the Green's function
    Prof. Dr. Philipp Hansmann
    2020-11-27 Wintersemester 2020/2021
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    01:15:01
    # 20
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    Analytical properties of the Green's functions
    Prof. Dr. Philipp Hansmann
    2020-12-01 Wintersemester 2020/2021
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    01:15:36
    # 21
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    Fermi Liquid Theory: Introduction
    Prof. Dr. Philipp Hansmann
    2020-12-06 Wintersemester 2020/2021
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    00:27:57
    # 22
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    Fermi Liquid Theory: Green's functions
    Prof. Dr. Philipp Hansmann
    2020-12-13 Wintersemester 2020/2021
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    00:29:06
    # 23
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    Fermi Liquid Theory: Self-energies
    Prof. Dr. Philipp Hansmann
    2020-12-13 Wintersemester 2020/2021
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    00:16:42
    # 24
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    Fermi Liquid Theory: Spectral functions
    Prof. Dr. Philipp Hansmann
    2020-12-13 Wintersemester 2020/2021
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    00:41:09
    # 25
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    Perturbation Theory: The perturbative series (a)
    Prof. Dr. Philipp Hansmann
    2020-12-15 Wintersemester 2020/2021
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    00:46:21
    # 26
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    Perturbation Theory: The perturbative series (b)
    Prof. Dr. Philipp Hansmann
    2020-12-15 Wintersemester 2020/2021
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    00:55:58
    # 27
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    Perturbation Theory: Wick's Theorem
    Prof. Dr. Philipp Hansmann
    2020-12-20 Wintersemester 2020/2021
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    00:51:59
    # 28
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    Perturbation Theory: Linked Cluster Theorem
    Prof. Dr. Philipp Hansmann
    2021-01-10 Wintersemester 2020/2021
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    00:24:04
    # 29
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    Perturbation Theory: First Order
    Prof. Dr. Philipp Hansmann
    2021-01-10 Wintersemester 2020/2021
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    00:55:50
    # 30
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    Perturbation Theory: Feynman rules
    Prof. Dr. Philipp Hansmann
    2021-01-10 Wintersemester 2020/2021
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    00:23:29
    # 31
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    Perturbation Theory: Matsubara sums
    Prof. Dr. Philipp Hansmann
    2021-01-10 Wintersemester 2020/2021
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    00:36:57
    # 32
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    Perturbation Theory: Self energy and Dyson equation (a)
    Prof. Dr. Philipp Hansmann
    2021-01-17 Wintersemester 2020/2021
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    00:48:43
    # 33
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    Perturbation Theory: Self energy and Dyson equation (b)
    Prof. Dr. Philipp Hansmann
    2021-01-17 Wintersemester 2020/2021
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    00:41:33
    # 34
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    Linear Response Theory: Introduction
    Prof. Dr. Philipp Hansmann
    2021-01-24 Wintersemester 2020/2021
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    00:45:40
    # 35
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    Linear Response Theory: The Kubo-Nakano formula
    Prof. Dr. Philipp Hansmann
    2021-01-24 Wintersemester 2020/2021
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    00:59:39
    # 36
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    Linear Response Theory: Computation of simple examples on the Matsubara axis
    Prof. Dr. Philipp Hansmann
    2021-01-26 Wintersemester 2020/2021
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    00:23:38
    # 37
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    Linear Response Theory: RPA (the shortcut version)
    Prof. Dr. Philipp Hansmann
    2021-01-26 Wintersemester 2020/2021
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    01:11:34
    # 38
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    Linear Response Theory: Response to an E.M.-field
    Prof. Dr. Philipp Hansmann
    2021-01-31 Wintersemester 2020/2021
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    00:59:32
    # 39
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    Linear Response Theory: Optical conductivity
    Prof. Dr. Philipp Hansmann
    2021-02-07 Wintersemester 2020/2021