Run Time: t=0.14-1.0s
ICRF Module: FPPRF (New nl Controls)
ICRF Power: 3MW @77MHz (Simulated)
ICRF Duration: 0.14-1.0s
LH Module: LSC
LH Power: 2.0MW @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=20, LEVGEO=6(VMEC6),
QLIM0=15.0, NBOOSM=2, NJSMBOOT=2, NJSMLH=4,
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 *
* Duplicate of 2316 lowering icrf power 2mw *
Comments:
This is a duplicate of 2316, but with the ICRF power lowered to 2MW. This is another attempt to get rid
of grad T on axis. Doesn't really work, but lowers the total temperature as expected.
Max fbs=45%, avg=37%.
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.
