Solid State Theory:
Homework I Homework II Homework III Homework IV Homework V
Homework VI Homework VII Homework VIII Homework IX
Tight-Binding Calculation of the Band Structure of Graphene.
Introducing the Concept of Magnetism.
Magnetism in Condensed Matter:
Dispersion, Absorption and Reminder of Density of States.
This Course was evaluated from 7 projects graded by the head of the Course. The 7 projects are available with their full solutions from the links below:
Project I Project II Project III Project IV Project V Project VI Project VIII
Electron Transport at Nanoscale:
Meir-Jauho-Wingreen Formalism.
Superconducting Electronics:
Solved Problems on Second Quantization.
Quantum Optics:
Material Response and Classical Model for Absorption.
Lindblad Form of the Quantum Master Equation.
Thermal Field Theory:
Quantum Field Theory:
Crash Course on the Higgs Boson.
Computational Physics:
Derivation of the Non-Linear Schrodinger Equation.
Crank-Nicolson Scheme for Solving 1D Quantum Mechanical Problems.
Derivation of the Gross-Pitaevskii Equation from the Hamiltonian Formulation.
Derivation of the Gross-Pitaevskii Equation from the Lagrangian Formulation.
Normalization and Scaling of the Gross-Pitaevskii Equation.
Two-Mode Gross-Pitaevskii Equation.
Video: Wave Packet Splitting.
[embedyt] https://www.youtube.com/watch?v=wwJxDZT_JVU[/embedyt]
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