Recent Changes

Thursday, November 2

  1. page BOOTSJ edited ... Tutorials Tutorials Bootstrap Calculation for NCSX-Like configuration K.C. Shaing, B.A. Car…
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    Tutorials Tutorials
    Bootstrap Calculation for NCSX-Like configuration
    K.C. Shaing, B.A. Carreras, N. Dominguez, V.E. Lynch, J.S. Tolliver 1989 Phys. Fluids B 1 1663
    K.C. Shaing, E.C. Crume, J.S. Tolliver, S.P. Hirshman, W.I. van Rij 1989 Phys. Fluids B 1 148
    K.C. Shaing, S.P. Hirshman, J.S. Tolliver 1986 Phys. Fluids 29 2548

    (view changes)
    1:54 am

Thursday, October 26

  1. page Stellopt_Adding_new_code edited {Adding The following file contains information on how REGCOIL was added to STELLOPT. To reques…
    {AddingThe following file contains information on how REGCOIL was added to STELLOPT.
    To request improvements or if you have any questions, please request access to the bitbucket git repo.
    https://bitbucket.org/lazerson_princeton/stellopt/branch/regcoilstellopt_v0
    {Adding
    REGCOIL to STELLOPT.pdf} Placeholder
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    8:38 am
  2. page Stellopt_Adding_new_code edited Placeholder {Adding REGCOIL to STELLOPT.pdf} Placeholder
    Placeholder {Adding REGCOIL to STELLOPT.pdf} Placeholder
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    8:30 am

Thursday, September 28

  1. page Stellopt_Adding_new_code edited Placeholder
    Placeholder
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    4:43 am
  2. page STELLOPT edited ... STELLOPT Coil Optimization STELLOPT Energetic Particle Optimization Adding Additional Const…
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    STELLOPT Coil Optimization
    STELLOPT Energetic Particle Optimization
    Adding Additional Constraints/Codes into STELLOPT
    (view changes)
    4:42 am

Friday, September 22

  1. page FIELDLINES edited ... The code can also be given a limiting surface (vessel, first wall, divertor). Field lines whic…
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    The code can also be given a limiting surface (vessel, first wall, divertor). Field lines which pass through this surface are not followed beyond that point. An artificial diffusion can also be applied to aid in modeling divertor strike points.
    If the user wishes, the code can automatically locate the magnetic axis, find the 'edge' of the flux surfaces, and output the periodic orbit of the edge with the -full option. Here the code begins by first following fieldlines from the minimium and maximum values in R_START and Z_START. A magnetic axis is identified using a periodic orbit search. The edge is then refined once so any edge stochastic region may be resolved. The code then follows fieldlines in this domain from the axis to the 'edge.' If the user supplies an R,PHI,Z guess for the edge periodic orbit the code will find it and the associated separatrix.
    {FIELDLINES_MU.png}
    CompilationCompilation
    FIELDLINES is a component of the STELLOPT suite of codes. It is contained within the 'stellopt.zip' file. Compilation of the STELLOPT suite is discussed on the STELLOPT Compilation Page. To obtain the code please contact the author Samuel A. Lazerson (lazerson@pppl.gov).
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    7:24 am
  2. 7:23 am

Tuesday, September 12

  1. page STELLOPT Input Namelist edited ... ! Requires STELLOPT to be linked to TERPSICHORE ! Requires the terpsichore_in…
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    ! Requires STELLOPT to be linked to TERPSICHORE
    ! Requires the terpsichore_input_XX files to be in the directory.
    ! Positive values of kink are considered stable.
    !------------------------------------------------------------------------
    MLMNB_KINK = 264 IVAC_KINK = 24
    TARGET_KINK(01) = -1.00.01 SIGMA_KINK(01) =
    NJ_KINK(01) = 256 NK_KINK(01) = 256
    MLMNS_KINK(01) = 76 LSSD_KINK(01) = 4096 LSSL_KINK(01) = 4096 ! terpsichore_input_00
    TARGET_KINK(02) = -1.00.01 SIGMA_KINK(02) =
    NJ_KINK(02) = 128 NK_KINK(02) = 128
    MLMNS_KINK(02) = 96 LSSD_KINK(02) = 4096 LSSL_KINK(02) = 4096! terpsichore_input_01
    (view changes)
    1:11 pm

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