====== Schedule ======

Lecturers: Scott Bogner, Peter Ring, Nicolas Schunck, Dario Vretenar

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[[week1|Week 1]], [[week2|Week 2]], [[week3|Week 3]]
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==== Week 3: Applications of Nuclear DFT  ====
==== Monday, July 28 ====
  * {{SSB&SymRes.pdf|Dario Vretenar 2}}: Concept of spontaneous symmetry breaking, nuclear deformation, particle number symmetry and pairing correlations.

==== Tuesday, July 29 ====
  * {{correlations.pdf|Dario Vretenar 3}}: Nuclear collective motion: collective variables, residual interactions, configuration mixing. 
==== Wednesday, July 30 ====
  * {{cours3.pdf|Nicolas Schunck 3}}: Computational nuclear structure: DFT solver schemes, large-scale applications, modern techniques to optimize energy density functionals.
==== Thursday, July 31 ====
//Open questions in nuclear DFT//
  * Non-empirical functionals, inclusion of collective correlations, symmetries - {{OpenProblems_DV.pdf||Slides by Dario}}
  * Mean-field components of nuclear structure model; time-dependent mean-field and DFT; beyond mean-field - {{ring-slides_open-problems.pdf|Slides by Peter}}
  * Uncertainty quantification in nuclear DFT, high-performance computing, microscopic description of nuclear fission - {{Talent_OpenQuestions.pdf|Slides by Nicolas}}
==== Friday, August 1 ====
  * Student's presentations
  * Wrap-up