Run Time: t=0.14-1.0s
ICRF Module: FPPRF (New nl Controls)
ICRF Power: 3MW @80MHz (Simulated)
ICRF Duration: 0.14-1.0s
LH Module: LSC
LH Power: 1.8MW @n0=2.75,4.0
LH Duration:0.15-1.0s
Density Profile: Artificial density barrier r/a=0.5, d=5cm *1.5
Chi Modification: Yes, NKEMOD = 0, -2; TKEMOD = 0.2;
NLXEIN=.T; XKEMIN=1.e3; XKEMAX=3.e4; NKIMODA= 6, 0;
TKIMOD= 0.2
Noteworthy Switches: NZONES=100, LEVGEO=6(VMEC6),
QLIM0=15.0, NBOOSM=1, NJSMBOOT=5, NJSMLH=20,
NRAYSLH=50,hLH=0.002,DTMAXG=0.002
* Duplicate of 2277 with reload and newer namelist *
* Duplicate of 2279 with n=n*1.5 *
* Duplicate of 2300 with input chi's *
* Duplicate of 2303 with x0=1e4 and xedge=2e3 cm^2/s *
* Duplicate of 2309 with NCLASS*
* Duplicate of 2312 increasing X(0) to 0.4 @r/a=0.2 *
* Duplicate of 2315 changing icrf to 77mhz increasing resolution*
* Duplicate of 2320 see nl*
* Duplicate of 2334 w/o NCLASS*
* Duplicate of 2335 w lower power and a little smoothing*
* Duplicate of 2337 w lower power*
* Duplicate of 2339 w lower power more smoothing*
* Duplicate of 2341 w no lh smoothing*
* Duplicate of 2373 w current diffusion =0.5*
Comments:
This is a duplicate of 2373 but with turning on the current diffusion model in LSC. The LH current spreads
realistically using a diffusion coefficient of 0.5 m^2/s. This is definately something to play with. The only
problem is now the spike of LH on axis.
For more information about the run see the input namelist.
The image below plots the total current vs time.
Legend:
Total Current: White
Lower Hybrid: Red
Ohmic Current: Green
Bootstrap Current: Blue
The figure below shows the actual power spectrum from the TRANSP output.
