SLiM project and its supporting scripts
Project description
SLiM
The Slab Like Microtearing mode (SLiM) model
Overview
This software provides a rapid assessment of the slab-like microtearing mode using a global linear dispersion model, which takes 50ms to calculate the growth rate and frequency of a given mode on the personal computer. Potentially uses 10^-7 of the computation resources for discharge study. For detail, one can check on the site (under construction): https://www.drmcurie.com/project-page/Research_Projects/SLiM
SLiM EXE can be found from this link: https://drive.google.com/drive/folders/12e1t6liY5JztwOBOLehPoV8GbfORn_j8?usp=sharing
Executable the program:
- Plot the modified the safety factor (q) to see if the rational surfaces are intersected with the q profile.
GUI: 000GUI_Plot_q_modification.py
script: 0Plot_q_modification.py
- Determine the stabilities of the MTM for different mode numbers
GUI: 000GUI_SLiM_mode_finder.py
script: 00SLiM_mode_finder.py
- Calculate a list of dispersion relations provided by a csv file
script: 0MTMDispersion_list_Calc.py
script(CPU accelerated,beta): 0MTMDispersion_list_Calc_parallel.py
GitHub repo:
https://github.com/maxtcurie/SLiM
APS 2021 invited talk about SLiM model:
Playlist for tutorial on running the SLiM model:
https://youtube.com/playlist?list=PLgNi5MiqkBWagsB8yRjRncsz1D4oeedQB
How to use GUI:
mode finder GUI: https://youtu.be/R_-ldYNvmhU
plot modified safety factor GUI: https://youtu.be/L01xl_e1bpM
CPU accellerated dispersion calculation:
With CPU acceleration: 297.5 sec
Without CPU acceleration: 481.1 sec
Trained neural network dispersion calculation: 0.05sec
Citation
This software is based on the following articles and presentations, please the cite those articles in the publications uses such software package:
- M.T. Curie, J. L. Larakers, D. R. Hatch, A. O. Nelson, A. Diallo, E. Hassan, W. Guttenfelder, M. Halfmoon, M. Kotschenreuther, R. D. Hazeltine, S. M. Mahajan, R. J. Groebner, J. Chen, C. Perez von Thun, L. Frassinetti, S. Saarelma, C. Giroud, M. M. Tennery (2022) "A survey of pedestal magnetic fluctuations using gyrokinetics and a global reduced model for microtearing stability" Physics of Plasmas (Editor's Pick)
https://doi.org/10.1063/5.0084842
- M. Curie, J.L. Larakers, D.R. Hatch, A. Diallo, E. Hassan, O. Nelson, W. Guttenfelder, M. Halfmoon, M. Kotschenreuthe, S. M. Mahajan, R. J. Groebner (2021)"Reduced predictive models for Micro-tearing modes in the pedestal" APS DPP
https://doi.org/10.13140/RG.2.2.27713.48482
- M. Curie (2022) "Simulations and reduced models for Micro-tearing modes in the Tokamak pedestal" Ph.D. Dissertation
https://doi.org/10.13140/RG.2.2.24468.37769
- J.L. Larakers, M. Curie, D. R. Hatch, R. D. Hazeltine, and S. M.Mahajan, 2021) "Global Theory of Microtearing Modes in the Tokamak Pedestal"
https://doi.org/10.1103/PhysRevLett.126.225001
SLiM_obj.py
self.r_sigma
self.R_ref
self.cs_to_kHz
self.omn
self.omn_nominal
self.cs
self.rho_s
self.Lref
self.x
self.shat
self.shat_nominal
self.eta
self.ky
self.ky_nominal=
self.nu
self.zeff
self.beta
self.q
self.q_nominal
self.ome
self.ome_nominal
self.Doppler
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Hashes for SLiM_phys-1.0.2-py3-none-any.whl
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| MD5 | fcc829bc689d8cfce7de1ae6ffbb24e5 |
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| BLAKE2b-256 | 195b84b88c35c4bbb1676f5d75ee2be874d1861e46b2c42036051a5df5a6763f |
