Schedule: Difference between revisions
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* B. K. | ===Fall 2022=== | ||
* J. A. Fernandez Sanchez, | * B. K. Nikolić, [https://wiki.physics.udel.edu/wiki_qttg/images/3/35/Spin_pumping_mtj.pdf One-dimensional models of adiabatic charge and spin pumping] | ||
* L. H. Mai, | * J. A. Fernandez Sanchez, Schwinger-Keldysh ("in-in") vs. Feynman ("in-out") path integral with harmonic oscillator examples | ||
* L. H. Mai, Introduction to the Lindblad master equation with QuTiP examples [[Media:Lindblad_Master_equation_QuTiP.ipynb|[Jupyter Notebook]]] | |||
* L. Herrera, | * L. Herrera, Numerically “exact” approach to open quantum dynamics: The hierarchical equations of motion. [[Media:heom_qutip_herrera.ipynb|[Jupyter Notebook]]] | ||
===Spring 2023=== | |||
* J. Varela-Manjarres, Floquet engineering of quantum systems | |||
* S. J. V. Urbano, Application of the Helfrich elasticity theory to the morphology of red blood cells | |||
===Fall 2023=== | |||
*B. K. Nikolić, [[Media:PHYS800_hubbard_dimer.pdf|From Hubbard dimer to effective antiferromagnetic Hubbard model for two spins]] | |||
*B. K. Nikolić, [[Media:PHYS800_magnons.pdf|Ground state and low-energy magnon excitations of ferro- and antiferromagnets]] | |||
* F. Garcia-Gaitan, Introduction to DMRG | |||
* F. Garcia-Gaitan, Antiferromagnetic and altermagnetic magnons | |||
* F. Garcia-Gaitan, Effective spin Hamiltonian from light-driven Hubbard model | |||
===Spring 2024=== | |||
* F. Reyes-Osorio, Schwinger-Keldysh field theory | |||
* K. J. Rueda-Espinosa, Jaynes–Cummings model | |||
* L. Herrera, Computational projects with the Landau–Zener problem in the quantum mechanics classroom | |||
===Fall 2025=== | |||
*F. Garcia-Gaitan and B. K. Nikolić, Quick and dirty tutorial on quantum master equations for qubit dynamics | |||
*F. Reyes-Osorio, Introduction to path (and functional) integrals in quantum physics | |||
*B. K. Nikolić, Bogoliubov-de Gennes equation and Andreev reflection | |||
*J. Varela-Manjarres, Lattice Bogoliubov-de Gennes equation via KWANT | |||
*K. Giraldo-Hincapie, BCS theory of superconductivity via functional integral | |||
Latest revision as of 09:12, 22 November 2025
Fall 2022
- B. K. Nikolić, One-dimensional models of adiabatic charge and spin pumping
- J. A. Fernandez Sanchez, Schwinger-Keldysh ("in-in") vs. Feynman ("in-out") path integral with harmonic oscillator examples
- L. H. Mai, Introduction to the Lindblad master equation with QuTiP examples [Jupyter Notebook]
- L. Herrera, Numerically “exact” approach to open quantum dynamics: The hierarchical equations of motion. [Jupyter Notebook]
Spring 2023
- J. Varela-Manjarres, Floquet engineering of quantum systems
- S. J. V. Urbano, Application of the Helfrich elasticity theory to the morphology of red blood cells
Fall 2023
- B. K. Nikolić, From Hubbard dimer to effective antiferromagnetic Hubbard model for two spins
- B. K. Nikolić, Ground state and low-energy magnon excitations of ferro- and antiferromagnets
- F. Garcia-Gaitan, Introduction to DMRG
- F. Garcia-Gaitan, Antiferromagnetic and altermagnetic magnons
- F. Garcia-Gaitan, Effective spin Hamiltonian from light-driven Hubbard model
Spring 2024
- F. Reyes-Osorio, Schwinger-Keldysh field theory
- K. J. Rueda-Espinosa, Jaynes–Cummings model
- L. Herrera, Computational projects with the Landau–Zener problem in the quantum mechanics classroom
Fall 2025
- F. Garcia-Gaitan and B. K. Nikolić, Quick and dirty tutorial on quantum master equations for qubit dynamics
- F. Reyes-Osorio, Introduction to path (and functional) integrals in quantum physics
- B. K. Nikolić, Bogoliubov-de Gennes equation and Andreev reflection
- J. Varela-Manjarres, Lattice Bogoliubov-de Gennes equation via KWANT
- K. Giraldo-Hincapie, BCS theory of superconductivity via functional integral
