When running IMP5HCD in either IMP5HCD_sa or in the ETS, the machine paramters can be assigned using the actor Initial IMP5 State. To control this assignment, double click to configure the actor and fill in the pop-up panel. For more details follow the links to the NBI settings, the EC settings, the IC settings and the wall settings.
The NBI settings panel is the list of variables following the line
===== NBI SETTINGS =====
Here is a description of the variables in this panel.
Machine | mass | charge | power | injection_energy | beam_power_fraction_2 | beam_power_fraction_3 |
---|---|---|---|---|---|---|
ITER | 2 | 1 | 33 MW | 1 MeV | 0 | 0 |
JET (16 PINIs) | 2 | 1 | 25 MW (max 2.5 MW/PINI) | 80-140 keV | 0.15 | 0.08 |
MAST | 2 | 1 | 4.0 MW | 60 keV | 0.15 | 0.08 |
AUG (PINI 1-4) | 2 | 1 | 4 x 2.5 MW | 60 keV | 0.25 | 0.10 |
AUG (PINI 5-8) | 2 | 1 | 4 x 2.5 MW | 93 keV | 0.25 | 0.10 |
TCV* | 2 | 1 | 2.0 MW | 25 keV | 0.24 | 0.08 |
DEMO | 2 | 1 | 90-200MW | 1-2 MeV | 0.0 | 0.0 |
Machine | Configuration name | Description |
---|---|---|
ITER | default | From the EDRG machine description database. Details: Unit 1 is On-axis and Unit 2 is Off-axis. Two gaussian components are assumed for the divergence : core (5mrad) and halo (15mrad). Unit R,Z,Phi calculated from avg of x,y,z coord. from datafiles of Otto. Tang_rad and angles from avg over beamlets angles. Beam divergences set to 5mrad assuming ideal core only component (halo 15mrad neglected). Past revisions of RUN2 contained 16 nbi units since we literally took the 4x4 layout of the cross section as with individual units. But there is a single power line and as such it is a single unit. Next datastructures should allow us to have type array to store arbitrary lenght r,z,phi,tang_rad,angle to describe any sort of layout in a coarse fashion. (2013) |
JET | default | From the EDRG machine description database. Details: This file is valid for so-called UP1467 configuration (PINIs 1-4-6-7 of both Octants are upshifted with respect to their standard position). Excluding some few restart (duct conditioning) shots at the beginning of experiment campaigns (which should not be analysed anyway), this configuration is valid for the shotrange 52888-61931. The order of entries below is as follows: First Octant 4 PINI-1, PINI-2, ... PINI-8, then Octant 8 PINI-1, PINI-2, ..., PINI-8. For pow_frc_blt (fraction of power of a unit injected by a beamlet) it is assumed for the moment that all beamlets inject the same amount of power. (2013) |
AUG | default | From the EDRG machine description database (2013). Details: This file does not contain details on the beamlets on each unit. We will have to get those later on. |
The EC settings panel is the list of variables following the line
===== EC SETTINGS =====
Here is a description of the variables in this panel.
Machine | EC_power_in | EC_angle_alpha_in (stearable range) | EC_angle_beta_in (stearable range) |
---|---|---|---|
AUG (*/EC_1, */EC_2, */EC_3, */EC_4) | 0.4 MW | (-4.3633231E-01 , 4.3633231E-01) rad | (-4.3633231E-01 , 4.3633231E-01) rad |
AUG (*/EC_5, */EC_6, */EC_7, */EC_8) | 0.7 MW | (-4.3633231E-01 , 4.3633231E-01) rad | (-4.3633231E-01 , 4.3633231E-01) rad |
DEMO1 | 40 MW | - rad | - rad |
ITER (2009/UL_LSM) | 16 MW | (5.2359878E-01 , 9.5993109E-01) rad | (3.1415927E-01 , 3.1415927E-01) rad |
ITER (2009/UL_USM) | 16 MW | (6.1086524E-01 , 1.0471976E+00) rad | (3.4906585E-01 , 3.4906585E-01) rad |
ITER (2011/EL_BOT) | 8 MW | (-8.7266463E-02 , -8.7266463E-02) rad | (3.4906585E-01 , 6.9813170E-01) rad |
ITER (2011/EL_MID) | 8 MW | (0.0000000E+00 , 0.0000000E+00) rad | (-6.9813170E-01 , -3.4906585E-01) rad |
ITER (2011/EL_TOP) | 8 MW | (8.7266463E-02 , 8.7266463E-02) rad | (3.4906585E-01 , 6.9813170E-01) rad |
ITER (2012/UL_LSM) | 16 MW | (5.2359878E-01 , 9.5993109E-01) rad | (3.4906585E-01 , 3.4906585E-01) rad |
ITER (2012/UL_USM) | 16 MW | (6.1086524E-01 , 1.0471976E+00) rad | (3.4906585E-01 , 3.4906585E-01) rad |
ITER (2013/EL_BOT) | 8 MW | (-1.7453293E-01 , 4.3633231E-01 rad | (4.3633231E-01 , 4.3633231E-01 rad |
ITER (2013/EL_MID) | 8 MW | (0.0000000E+00 , 6.1086524E-01) rad | (4.3633231E-01 , 4.3633231E-01) rad |
ITER (2013/EL_TOP) | 16 Mw | (-3.4906585E-01 , 2.6179939E-01) rad | (-3.4906585E-01 , -3.4906585E-01) rad |
JET | 10 Mw | - rad | - rad |
Machine | Configuration name | Description |
---|---|---|
AUG | LLLL |
Official AUG antenna configuration #1 .Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=105 GHz, f(EC_7)=105 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LLLH |
Official AUG antenna configuration #2. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=105 GHz, f(EC_7)=105 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LLHL |
Official AUG antenna configuration #3. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=105 GHz, f(EC_7)=140 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LLHH |
Official AUG antenna configuration #4. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=105 GHz, f(EC_7)=140 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LHLL |
Official AUG antenna configuration #5. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=140 GHz, f(EC_7)=105 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LHLH |
Official AUG antenna configuration #6. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=140 GHz, f(EC_7)=105 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LHHL |
Official AUG antenna configuration #7. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=140 GHz, f(EC_7)=140 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | LHHH |
Official AUG antenna configuration #8. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=105 GHz, f(EC_6)=140 GHz, f(EC_7)=140 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HLLL |
Official AUG antenna configuration #9. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=105 GHz, f(EC_7)=105 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HLLH |
Official AUG antenna configuration #10. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=105 GHz, f(EC_7)=105 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HLHL |
Official AUG antenna configuration #11. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=105 GHz, f(EC_7)=140 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HLHH |
Official AUG antenna configuration #12. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=105 GHz, f(EC_7)=140 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HHLL |
Official AUG antenna configuration #13. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=140 GHz, f(EC_7)=105 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HHLH |
Official AUG antenna configuration #14. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=140 GHz, f(EC_7)=105 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HHHL |
Official AUG antenna configuration #15. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=140 GHz, f(EC_7)=140 GHz, f(EC_8)=105 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
AUG | HHHH |
Official AUG antenna configuration #16. Provided by Joerg Stober and Walter Kasparek.
Gyrotrons configuration: f(EC_5)=140 GHz, f(EC_6)=140 GHz, f(EC_7)=140 GHz, f(EC_8)=140 GHz. NOTE: Anyone who wants to use the ITM database to plan EC experiments on AUG should get in contact with Joerg Stober, to check that the assumptions they have done are consistent. |
DEMO1 | test200GHz | Dummy antenna; perpendicular launch in the equitorial plane at 200 GHz. Generated only for initial testing. |
ITER | 2009 | Unofficial antenna (from Lorenzo Figini). |
ITER | 2011 | Unofficial antenna (from Lorenzo Figini). |
ITER | 2012 | Unofficial antenna (from Lorenzo Figini). |
ITER | 2013 | Unofficial antenna (from Lorenzo Figini). |
JET | test66GHz | Dummy antenna; perpendicular launch in the equitorial plane at 66 GHz. Generated only for initial testing. |
JET | test78GHz | Dummy antenna; perpendicular launch in the equitorial plane at 78 GHz. Generated only for initial testing. |
JET | test90GHz | Dummy antenna; perpendicular launch in the equitorial plane at 90 GHz. Generated only for initial testing. |
For a detailed description of these configurations, see the IMP5 EC-Antennas Database
The IC settings panel is the list of variables following the line
===== IC SETTINGS =====
Here is a description of the variables in this panel.
Machine | IC_power_in | IC_frequency_in | IC_phase_in |
---|---|---|---|
ITER | 20 MW | 54 MHz (central He3 minority at 5.3T) | { 0 , PI , 0 , PI } |
JET | 7 MW |
33 MHz (central H minority at 2.16T)
37 MHz (central H minority at 2.42T) 42 MHz (central H minority at 2.75T) 47 MHz (central H minority at 3.08T) 51 MHz (central H minority at 3.34T) 33 MHz (central He3 minority at 3.24T) 37 MHz (central He3 minority at 3.63T) 51 MHz (central 2nd harmonic H at 1.67T) 47 MHz (central 2nd harmonic H at 1.54T) 42 MHz (central 2nd harmonic H at 1.38T) 37 MHz (central 2nd harmonic H at 1.21T) 33 MHz (central 2nd harmonic H at 1.08T) |
{ 0 , PI , 0 , PI } (dipole)
{ 0 , PI/2 , PI , 3*PI/2 } (co-current) { 0 , -PI/2 , -PI , -3*PI/2 } (counter-current) |
AUG | 7 MW |
30.0 MHz (central H minority at 2.0 T)
36.5 MHz (central H minority at 2.5 T) |
{ 0 , PI } |
Tore Supra | 9 MW |
57 MHz (central H minority at 3.7 T)
63 MHz (central 2nd harmonic H at 2.1 T) 42 MHz (central 3He minority at 3.7 T) 48 MHz (FWEH at 2.1 T) |
{ 0 , PI } |
WEST (unofficial 2013-08-08) | - MW | 55/57 MHz (central H minority at 3.7 T) |
Names of available IC configuration in the machine description database:
Machine | Configuration name | Description |
---|---|---|
ITER | IC20130809rough | A rough unofficial antenna generated to mimic graphical illustrations. |
JET | IC20130809rough | A rough unofficial antenna generated to mimic graphical illustrations. |
AUG | IC20130809rough | A rough unofficial antenna generated from a limited number of parameter provided by Roberto Bilato. |
WEST | FluxAligned | A rough unofficial antenna. The antenna shape is simply aligned to the flux surface, which is the same antenna that Remi Dumont has been using in his initial studies of ICRF in WEST (2013-10-16). |
For detailed descriptions of these antennas see the IMP5 IC-Antennas Database
The Wall settings panel is the list of variables following the line
===== WALL SETTINGS =====
Here is a description of the variables in this panel.
Machine | Configuration name | Description |
---|---|---|
ITER | default | from the EDRG machine description database (2013) |
JET | default | from the EDRG machine description database (2013) |
AUG | default | from the EDRG machine description database (2013) |
FTU | default | from the EDRG machine description database (2013) |