Quantum Field Theory in Curved Spacetime

Diese Vorlesung abonnieren (RSS-Feed)
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3) Driven Harmonic Oscillator; 4) From Harmonic Oscillators to Fields

  • Untertitel   3.1) Quantizing an Oscillator; 3.2) The "In" and "Out"-States; 3.3) Matrix Elements and Green's Function; 4.1) Quantum Harmonic Oscillators
  • Sprecher   Apl. Prof. Dr. Jürgen Schaffner-Bielich
  • Ort   Phys 02.116
  • Datum   26.11.2020 @ 14:15

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2) Reminder: Classical & Quantum Theory (continued)

  • Untertitel   2.2) Hamilton Formalism; 2.3) Quantization of the Hamiltonian; 2.4) Hilbert Space and Dirac Notation; 2.5) Operators, Eigenvalue Problem and Basis; 2.6) Generalized Eigenvectors and Matrix Elements; 2.7) Evolution in Quantum Theory
  • Sprecher   Apl. Prof. Dr. Jürgen Schaffner-Bielich
  • Ort   Phys 02.116
  • Datum   19.11.2020 @ 14:15

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1) Overview (continued); 2) Reminder: Classical & Quantum Theory

  • Untertitel   1.4) Quantum Vacuum Fluctuations; 1.5) Particle Interpretation of Quantum Fields; 1.6) QFT in classical Backgrounds; 1.7) Examples of Particle Creation; 2.1 Lagrangian Formalism
  • Sprecher   Apl. Prof. Dr. Jürgen Schaffner-Bielich
  • Ort   Phys 02.116
  • Datum   12.11.2020 @ 14:15

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1) Overview

  • Untertitel   Formalities; Content; Literature; 1.1 Classical Field; 1.2 Quantum Field and its Vacuum State; 1.3 Vacuum Energy
  • Sprecher   Apl. Prof. Dr. Jürgen Schaffner-Bielich
  • Ort   Phys 02.116
  • Datum   06.11.2020 @ 14:15