2026-04-19T17:21:08Zhttps://www.radar-service.eu/oai/OAIHandler

10.35097/14692023-11-15T14:45:22Zradar4kit

10.35097/1469 Dörich, Benjamin Benjamin Dörich 0000-0001-5840-2270 Institut für Angewandte und Numerische Mathematik Henning, Patrick Patrick Henning Karlsruhe Institute of Technology 2023 2023 Mathematics Ginzburg–Landau equation superconductivity error analysis finite element method Open Access Creative Commons Attribution Non Commercial Share Alike 4.0 International Dörich, Benjamin 0000-0001-5840-2270 Henning, Patrick This program is intended to reproduce the results from the preprint "Error bounds for discrete minimizers of the Ginzburg--Landau energy in the high-$\kappa$ regime" by Benjamin Dörich and Patrick Henning The codes generates the lines in Figure 1 #### Requirements The program is tested with Ubuntu 20.04.5 LTS and Python 3.8.10 and the following version of its modules: - numpy - 1.17.4 - scipy - 1.3.3 - matplotlib - 3.1.2 - tikzplotlib - 0.9.8 - dolfin - 2019.2.0.dev0 - fenics - 2019.2.0.dev0 #### Figures In the folder "CRC1173_Preprint_2023-11_Codes" open a console and run the following commands after each other (2a-c can be executed in paralell). 1) Run "python3 c1_generate_rectangle.py" 2a) Run "python3 c2_GL_FEM_comp_all_min.py" 2b) Run "python3 c16_GL_FEM_comp_kappa16.py" 2c) Run "python3 c20_GL_FEM_comp_kappa20.py" 3) Run "python3 c3_GL_FEM_comp_all_errors.py" 4) Run "python3 c4_GL_FEM_draw_error_plot.py" After running the calculations, the files are stored as follows: (a) the folder "plots_for_paper" contains the pdf and tikz files for the error plots in Figure 1. (b) the folders "sol_ref_3_Mag_st_2.0_kappa_[KAPPA]_P1_square" contain all figures of the solutions where [KAPPA] is replaced by the respective value. 10.5445/IR/1000157006 application/x-tar