Added description of NBH(25 keV) and DNB

matlab/TCV_IMAS/tcv_get_ids_nbi.m

@@ -7,29 +7,194 @@ function [ids_nbi,ids_nbi_description,varargout] = tcv_get_ids_nbi(shot,ids_nbi_
 %
 
 [ids_nbi, params_nbi] = tcv_ids_headpart(shot,ids_nbi_empty,'nbi','homogeneous_time',0,varargin{:});
-
+ids_nbi_description='';
 % As a general rule, for a new substructure under the main ids, construct a local structure like:
 % "global_quantities" with subfields being the relevant data to get and a local structure:
 % "global_quantities_desc" which contains the same subfields themselves containing the gdat string aftre shot used
 %
 
-pow=gdat_tcv(shot,'powers');
 
 nb_units = 2; % assume 2 units: 1st NBH and DNBI
 ids_nbi.unit(1:nb_units) = ids_nbi.unit(1); % copy empty structure for all units, then fill in
 
-for iunit=1:length(nb_units)
+for iunit=1:nb_units
   switch iunit
    case 1
     ids_nbi.unit{iunit}.identifier = 'NBH1';
     ids_nbi.unit{iunit}.name = '25keV 1st NBH source';
+    %% power
+    pow=gdat_tcv(shot,'powers');
     ids_nbi.unit{iunit}.power_launched.time = pow.nbi.t;
     ids_nbi.unit{iunit}.power_launched.data = pow.nbi.data;
+    %% energy
+    ids_nbi.unit{iunit}.energy.time = pow.nbi.t;
+    ids_nbi.unit{iunit}.energy.data = pow.nbi.energy;
+    %% power & current fractions
+    p_frac=gdat(shot,'\results::nbh:fraction');
+    ids_nbi.unit{iunit}.beam_power_fraction.data = p_frac.data(:,1:3)*0.01;
+    ids_nbi.unit{iunit}.beam_power_fraction.time = p_frac.t;
+    i_frac = p_frac.data(:,1:3).*[1 2 3];
+    i_frac = i_frac.*1./sum(i_frac);
+    ids_nbi.unit{iunit}.beam_current_fraction.data = i_frac;
+    ids_nbi.unit{iunit}.beam_current_fraction.time = p_frac.t;
+    %% species
+    ids_nbi.unit{iunit}.species.a   = 2.;
+    ids_nbi.unit{iunit}.species.z_n = 1.;
+    ids_nbi.unit{iunit}.species.label = ['D'];
+    %% beamlets group, now only one single beamlet
+    % https://spcwiki.epfl.ch/wiki/NB_Model
+    ids_nbi.unit{iunit}.beamlets_group{1}.direction = -1; %clockwise
+    ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius = 736*1e-3; %736mm
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.angle = 0.; %injection parallel to midplane
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal = 250*1e-3;
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical = 250*1e-3;
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_upper: -9.0000e+40    
+    %% focus struct
+    focus  = struct();
+    focus.focal_length_horizontal = 3.76;
+%     focus.focal_length_horizontal_error_index = -999999999;
+%     focus.focal_length_horizontal_error_lower = -9.0000e+40;
+%     focus.focal_length_horizontal_error_upper = -9.0000e+40;
+    focus.focal_length_vertical = 3.98;
+%     focus.focal_length_vertical_error_index: -999999999;
+%     focus.focal_length_vertical_error_lower: -9.0000e+40;
+%     focus.focal_length_vertical_error_upper: -9.0000e+40;
+    focus.width_min_horizontal = 21.6*1e-2;
+%     focus.width_min_horizontal_error_index: -999999999;
+%     focus.width_min_horizontal_error_lower: -9.0000e+40;
+%     focus.width_min_horizontal_error_upper: -9.0000e+40;
+    focus.width_min_vertical = 9.4*1e-2;
+%     focus.width_min_vertical_error_index: -999999999;
+%     focus.width_min_vertical_error_lower: -9.0000e+40;
+%     focus.width_min_vertical_error_upper: -9.0000e+40;
+    ids_nbi.unit{iunit}.beamlets_group{1}.focus = focus;
+    %% divergence component struct
+    div = struct();
+    div.particle_fraction = 1.;
+    div.vertical = 10.3*1e-3; %rad, in deg it is 0.59
+    div.horizontal = 24.4*1e-3; %rad, in deg it is 1.4
+    ids_nbi.unit{iunit}.beamlets_group{1}.divergence_component{1} = div;
+    %% tilting
+    % it is fixed in time. what should we do about it?
+    
+    %% position
+    %dcd_NBH = psitbxdcd(4.5889, 0.0, 211.9535*pi/180, 0.0, -9.2308*pi/180);
+    pos = struct();
+    pos.phi= 211.9535*pi/180.;
+%     pos.phi_error_index= -999999999;
+%     pos.phi_error_lower= -9.0000e+40;
+%     pos.phi_error_upper= -9.0000e+40;
+    pos.r= 4.5889;
+%     pos.r_error_index= -999999999;
+%     pos.r_error_lower= -9.0000e+40;
+%     pos.r_error_upper= -9.0000e+40;
+    pos.z= 0.;
+%     pos.z_error_index= -999999999;
+%     pos.z_error_lower= -9.0000e+40;
+%     pos.z_error_upper= -9.0000e+40;
+    ids_nbi.unit{iunit}.beamlets_group{1}.position = pos;
+    %% beamlets
+    % M. Vallar thinks it is useless now
+
    case 2
     ids_nbi.unit{iunit}.identifier = 'DNBI';
     ids_nbi.unit{iunit}.name = 'diagnostic NBI';
-    % ids_nbi.unit{iunit}.power_launched.data = pow.nbi.data; % DNBI power time values and time
-    % ids_nbi.unit{iunit}.power_launched.time = ;
+    %% power
+    pow=gdat_tcv(shot,'\RESULTS::DNBI:POWR_TCV');
+    ids_nbi.unit{iunit}.power_launched.time = pow.t;
+    ids_nbi.unit{iunit}.power_launched.data = pow.data*1e6;
+    %% energy
+    en=gdat(shot,'\RESULTS::DNBI:ENERGY');
+    ids_nbi.unit{iunit}.energy.data = en.data*1e3;
+    ids_nbi.unit{iunit}.energy.time = en.t;
+    %% power & current fractions
+    p_frac=gdat(shot,'\results::dnbi:fraction');
+    ids_nbi.unit{iunit}.beam_power_fraction.data = p_frac.data(:,1:3)*0.01;
+    ids_nbi.unit{iunit}.beam_power_fraction.time = p_frac.t;
+    i_frac = p_frac.data(:,1:3).*[1 2 3];
+    i_frac = i_frac.*1./sum(i_frac);
+    ids_nbi.unit{iunit}.beam_current_fraction.data = i_frac(:,:);
+    ids_nbi.unit{iunit}.beam_current_fraction.time = p_frac.t;
+    %% species
+    ids_nbi.unit{iunit}.species.a   = 1.;
+    ids_nbi.unit{iunit}.species.z_n = 1.;
+    ids_nbi.unit{iunit}.species.label = ['H'];
+    %% beamlets group, now only one single beamlet
+    % https://spcwiki.epfl.ch/wiki/NB_Model
+    ids_nbi.unit{iunit}.beamlets_group{1}.direction = 1; %ctr-clockwise
+    ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius = 235.3*1e-3; %736mm
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.tangency_radius_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.angle = 0.; %injection parallel to midplane
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.angle_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal = 87.2*1e-3;
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_horizontal_error_upper: -9.0000e+40
+    ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical = 87.2*1e-3;
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_index: -999999999
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_lower: -9.0000e+40
+%     ids_nbi.unit{iunit}.beamlets_group{1}.width_vertical_error_upper: -9.0000e+40    
+    %% focus struct
+    focus  = struct();
+    focus.focal_length_horizontal = 1.8;
+%     focus.focal_length_horizontal_error_index = -999999999;
+%     focus.focal_length_horizontal_error_lower = -9.0000e+40;
+%     focus.focal_length_horizontal_error_upper = -9.0000e+40;
+    focus.focal_length_vertical = 1.8;
+%     focus.focal_length_vertical_error_index: -999999999;
+%     focus.focal_length_vertical_error_lower: -9.0000e+40;
+%     focus.focal_length_vertical_error_upper: -9.0000e+40;
+    focus.width_min_horizontal = 12.1*1e-2;
+%     focus.width_min_horizontal_error_index: -999999999;
+%     focus.width_min_horizontal_error_lower: -9.0000e+40;
+%     focus.width_min_horizontal_error_upper: -9.0000e+40;
+    focus.width_min_vertical = 12.1*1e-2;
+%     focus.width_min_vertical_error_index: -999999999;
+%     focus.width_min_vertical_error_lower: -9.0000e+40;
+%     focus.width_min_vertical_error_upper: -9.0000e+40;
+    ids_nbi.unit{iunit}.beamlets_group{1}.focus = focus;
+    %% divergence component struct
+    div = struct();
+    div.particle_fraction = 1.;
+    div.vertical = 9.2*1e-3; %rad, in deg it is 0.53
+    div.horizontal = 9.2*1e-3; %rad, in deg it is 0.53
+    ids_nbi.unit{iunit}.beamlets_group{1}.divergence_component{1} = div;
+    %% tilting
+    % it is fixed in time. what should we do about it?
+    
+    %% position
+    %dcd_NBH = psitbxdcd(4.5889, 0.0, 211.9535*pi/180, 0.0, -9.2308*pi/180);
+    pos = struct();
+    pos.phi= 295.2416*pi/180.;
+%     pos.phi_error_index= -999999999;
+%     pos.phi_error_lower= -9.0000e+40;
+%     pos.phi_error_upper= -9.0000e+40;
+    pos.r= 4.9274;
+%     pos.r_error_index= -999999999;
+%     pos.r_error_lower= -9.0000e+40;
+%     pos.r_error_upper= -9.0000e+40;
+    pos.z= 0.;
+%     pos.z_error_index= -999999999;
+%     pos.z_error_lower= -9.0000e+40;
+%     pos.z_error_upper= -9.0000e+40;
+    ids_nbi.unit{iunit}.beamlets_group{1}.position = pos;
+    %% beamlets
+    % M. Vallar thinks it is useless now
    otherwise
     warning(['iunit = ' num2str(iunit) ' not yet defined']);
   end