Difference between revisions of "Teaching"
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** Seminar 15: The density matrix [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=8dd95301-0194-4f69-8314-ac830168a1e9 <i class="fa fa-video-camera" aria-hidden="true"></I>] [[:Media:6AP003_-_Seminar_15_-_The_density_matrix.pdf|<i class="fa fa-file-pdf-o" aria-hidden="true"></i>]] | ** Seminar 15: The density matrix [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=8dd95301-0194-4f69-8314-ac830168a1e9 <i class="fa fa-video-camera" aria-hidden="true"></I>] [[:Media:6AP003_-_Seminar_15_-_The_density_matrix.pdf|<i class="fa fa-file-pdf-o" aria-hidden="true"></i>]] | ||
** Seminar 16: Dissipation [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=eb8fe1a3-8c20-4f98-8dfe-ac8400b50110 <i class="fa fa-video-camera" aria-hidden="true"></I>] [[:Media:6AP003_-_Seminar_16_-_Dissipation.pdf|<i class="fa fa-file-pdf-o" aria-hidden="true"></i>]] | ** Seminar 16: Dissipation [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=eb8fe1a3-8c20-4f98-8dfe-ac8400b50110 <i class="fa fa-video-camera" aria-hidden="true"></I>] [[:Media:6AP003_-_Seminar_16_-_Dissipation.pdf|<i class="fa fa-file-pdf-o" aria-hidden="true"></i>]] | ||
** Seminar 17: Decay and incoherent driving [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=e1822f93-8272-445d-93d6-ac8401572787 <i class="fa fa-video-camera" aria-hidden="true"></I>] [https://wlv.cloud.panopto.eu/Panopto/Pages/Viewer.aspx?id=19ae1f03-5ee6-4ff7-a80d-ac840157522e <i class="fa fa-video-camera" aria-hidden="true"></I>] [[:Media:6AP003_-_Seminar_17_-_Decay_and_coherent_driving.pdf|<i class="fa fa-file-pdf-o" aria-hidden="true"></i>]] | |||
===2019/20 === | ===2019/20 === | ||
Revision as of 21:55, 1 December 2020
Courses taught at the University of Wolverhampton
2020/21
- Solid State Physics (5AP002, Lectures & Tutorials; Module leader):
- Lectures:
- Lecture 1: Introduction to lattices
- Lecture 2: Bravais lattices
- Lecture 3: Reciprocal lattices
- Lecture 4: Bragg law and diffraction condition
- Lecture 5: Van der Waals and Lennard-Jones potentials
- Lecture 6: Coupled harmonic oscillators
- Lecture 7: Introduction to phonons
- Lecture 8: More about phonons
- Lecture 9: Density of states
- Lecture 10: Obtaining the density of states
- Lecture 11: Debye model
- Lecture 12: Einstein model and electron gas
- Lecture 13: Free electron gas in 3D
- Lecture 14: Contribution of electrons to the heat capacity and electric conductivity
- Lecture 15: The Hall effect and the origin of the energy gap
- Lecture 16: Energy gap and Kronig-Penney model
- Lecture 17: The central equation
- Lecture 18: Energy gap at the boundary of the Brillouin zone
- Lecture 19: Semiconductors
- Lecture 20: Electrons and holes in semiconductors
- Lecture 21: Intrinsic carrier concentration
- Experiments:
- Lectures:
- Research I (6AP003, Lectures & Tutorials):
2019/20
- Quantum Mechanics (4AP003, Lectures; Module leader): This module was taking place when COVID-19 broke out in Europe and we had to turned it into an online course. The recordings of the lectures are on the links below.
- Lecture 10: Solutions to the harmonic oscillator
- Lecture 11: Free particle
- Lecture 12: Reciprocal space
- Lecture 13: Uncertainty principle
- Lecture 14: Bound state of the $\delta$-potential
- Lecture 15: Scattering states of the $\delta$-potential
- Lecture 16: Bound states of the finite square well potential
- Lecture 17: The Hilbert space
- Lecture 18: Operators in the Hilbert space
- Lecture 19: Postulates of Quantum Mechanics
- Lecture 20: Bosons: ladder operators and coherent states
- Lecture 21: Fermions: the two-level system and Pauli matrices
- Lecture 22: Rabi oscillations
- Electromagnetism I (4AP004, Tutorials)
- Solid State Physics (5AP002, Lectures & Tutorials; Module leader)
- Electromagnetism II (5AP001, Tutorials)
2018/19
- Quantum Mechanics (4AP003, Tutorials)
- Electromagnetism I (4AP004, Lectures & Tutorials; Module leader)
- Optics (4AP001, Tutorials)
- Solid State Physics (5AP002, Lectures & Tutorials; Module leader)
- Electromagnetism II (5AP001, Tutorials)
- Thermodynamics & Statistical Physics (5AP004, Tutorials)
- Quantum Physics (5AP005, Tutorials)
- Mathematical Methods (5AP004, Tutorials)