gyacomo/
3D vs master
Commit | Author | Details | Committed | ||||
---|---|---|---|---|---|---|---|
65e645f55013 | Ahoffmann | update script | Aug 2 2021 | ||||
aa3b1a058292 | Ahoffmann | wipe turbulence and gaussian blob init restart options added | Aug 2 2021 | ||||
b77c683dfc16 | Ahoffmann | typo on z grid | Aug 2 2021 | ||||
c77b3ab08080 | Ahoffmann | shorter | Aug 2 2021 | ||||
fcc0b4dbb0d1 | Ahoffmann | movie making script is shorter | Aug 2 2021 | ||||
072b85e478e3 | Ahoffmann | kernel and dnjs are now moved in numerics f90 | Aug 2 2021 | ||||
d1ce1be93368 | Ahoffmann | script cleaning | Aug 2 2021 | ||||
f9d7b5cd4ed1 | Ahoffmann | added the numerics mod to compilation | Aug 2 2021 | ||||
6f1a1fbefa49 | Ahoffmann | scripts | Jul 29 2021 | ||||
617dff004cb7 | Ahoffmann | F*****G TYPO | Jul 28 2021 |
README.md
HeLaZ (Hermite-Laguerre Z-pinch solver, 2020) Current version : 0.6
Roadmap :
0. Write MOLI matlab solver in Fortran using Monli1D as starting point
0.0 go from 1D space to 2D fourier and from Hermite basis to Hermite-Laguerre basis
0.1 implement linear Poisson equation in fourier space
0.2 implement moment hierarchy linear terms
0.3 RK4 time solver
0.4 Benchmark with MOLI matlab results for Z-pinch (cf. kz_linear script)
Note : benchmark_*.m compares MOLI and HeLaZ linear results
0.5 Load COSOlver matrices
0.6 Benchmarks now include Dougherty, Lenard-Bernstein and Full Coulomb collision operators
Note : for full Coulomb, one must store a precomputed matrix from COSOlver in the iCa folder
- Implementation of the non linear Poisson brackets term
1.0 FFTW3 has been used to treat the convolution as a product and discrete fourier transform
1.1 Methods in fourier_mod.f90 have been validated by tests on Hasegawa Wakatani system
1.1 Qualitative test : find similar turbulences as Hasegawa Wakatani system with few moments