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The course utilizes hands-on Computer Labs based on: | |||
* [https://weinbe58.github.io/QuSpin/ QuSpin Python package] for numerical calculations (exact diagonalization and quantum dynamics) of arbitrary boson, fermion and spin many-body systems | * [https://weinbe58.github.io/QuSpin/ QuSpin Python package] for numerical calculations (exact diagonalization and quantum dynamics) of arbitrary boson, fermion and spin many-body systems | ||
* [http://nrgljubljana.ijs.si/sneg/ SNEG Mathematica package] for analytical calculations in second quantization | * [http://nrgljubljana.ijs.si/sneg/ SNEG Mathematica package] for analytical calculations in second quantization | ||
* [ | |||
It also offers students ''Research-Project Based Learning'' track where a scientific paper can be completed by the end of the semester as exemplified by: | |||
*U. Bajpai, A. Suresh, and B. K. Nikolić, ''Quantum many-body states and Green functions of nonequilibrium electron-magnon systems: Localized spin operators vs. their mapping to Holstein-Primakoff bosons'', [https://arxiv.org/abs/2104.07657 arXiv:2104.07657]. | |||
Revision as of 17:05, 11 August 2021
The course utilizes hands-on Computer Labs based on:
- QuSpin Python package for numerical calculations (exact diagonalization and quantum dynamics) of arbitrary boson, fermion and spin many-body systems
- SNEG Mathematica package for analytical calculations in second quantization
It also offers students Research-Project Based Learning track where a scientific paper can be completed by the end of the semester as exemplified by:
- U. Bajpai, A. Suresh, and B. K. Nikolić, Quantum many-body states and Green functions of nonequilibrium electron-magnon systems: Localized spin operators vs. their mapping to Holstein-Primakoff bosons, arXiv:2104.07657.
