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https://en.wikipedia.org/wiki/Three-body_problem
https://composarc.github.io/nuct-cc-many-body-methods/doc/web/course.html
Many-body Methods for Nuclear Physics, Nuclear Talent course 2
Carlo Barbieri [1] Wim Dickhoff [2] Gaute Hagen [3, 4] Morten Hjorth-Jensen [5, 6] Artur Polls [7]
[1] Department of Physics, University of Surrey, United Kingdom [2] Department of Physics, Washington University, St Louis, Missouri [3] Physics Division, Oak Ridge National Laboratory, Oak Ridge [4] Department of Physics and Astronomy, University of Tennessee, Knoxville, Tennessee, USA [5] Department of Physics, University of Oslo, Norway [6] Department of Physics and Astronomy and National Superconducting Cyclotron Laboratory, Michigan State University, USA [7] Departament d'Estructura i Constituents de la Materia, Universitat de Barcelona, Barcelona, Spain
July 6-24, 2015, GANIL, Caen, France The teaching material is produced in various formats for printing and on-screen reading. If you are not familiar with second quantization, we recommend that you go through the additional material included here. The PDF files are based on LaTeX and have seldom technical failures that cannot be easily corrected. The HTML-based files, called "HTML" and "ipynb" below, apply MathJax for rendering LaTeX formulas and sometimes this technology gives rise to unexpected failures (e.g., incorrect rendering in a web page despite correct LaTeX syntax in the formula). Consult the corresponding PDF files if you find missing or incorrectly rendered formulas in HTML or ipython notebook files.
Material for the Many-body theory course Introduction and motivation LaTeX PDF for printing/viewing: Standard one-page format HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Reminder on second quantization LaTeX PDF for printing/viewing: Standard one-page format Wim Dickhoff's preparatory material HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file How to build a numerical project and project proposals for the course LaTeX PDF for printing/viewing: Standard one-page format Notes for the Green's funtion projects Fortran 90 test program for using derived types and storage of interaction and t2 amplitudes Added TBMEs for the Minnesota potential for Nmax = 3 hw = 22 MeV Example of FORTRAN code for solving the pairing modeland results Link to C++ code for ADC(2) and CCD in finite nuclei HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Hartree-Fock theory LaTeX PDF for printing/viewing: Standard one-page format HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Full configuration interaction theory LaTeX PDF for printing/viewing: Standard one-page format HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Many-body perturbation theory LaTeX PDF for printing/viewing: Standard one-page format HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Coupled cluster theory LaTeX PDF for printing/viewing: Morten Hjorth-jensen's first lecture Gaute Hagen's lecture 3 Gaute Hagen's lecture 4 Gaute Hagen's lecture 5 HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Green's function theory LaTeX PDF for printing/viewing: Carlo Barbieri's background material Carlo Barbieri's first lecture Carlo Barbieri's second lecture Carlo Barbieri's third lecture Carlo Barbieri's fourth and fifth lecture Carlo Barbieri's sixth lecture Infinite nuclear matter LaTeX PDF for printing/viewing: Morten Hjorth-Jensen's background material on infinite systems Gaute Hagen's first and second lecture Artur Polls' first lecture Artur Polls' second lecture Artur Polls' third lecture Artur Polls' fourth lecture Artur Polls' fifth lecture HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file Dispersive optical model and correlations and experiment LaTeX PDF for printing/viewing: Wim Dickhoff's first lecture Wim Dickhoff's second lecture Wim Dickhoff's third lecture Wim Dickhoff's fourth lecture Wim Dickhoff's fifth lecture Wim Dickhoff's sixth lecture Simple overview of nuclear forces LaTeX PDF for printing/viewing: Standard one-page format HTML: Solarized style Bootstrap style iPython notebook (useful for running codes interactively): ipynb file
bariongenesisn & used baryon symbols in Classicmusic
https://composarc.github.io/nuct-cc-many-body-methods/doc/src/forces/lockun-matsubara55.pdf
https://composarc.github.io/nuct-cc-many-body-methods/doc/src/forces/chapt7.pdf