MUST2 SAMURAI_2018 S3-LEB-LPC SUPERNEMO MUGAST EXPAND SCALP GALATRON HiCARI VELO
  MUGAST  Not logged in MUGAST
Message ID: 3771     Entry time: Fri Apr 5 11:26:09 2019
Author: Adrien, Freddy and the world 
ExpNbr: com2019 
Type: OFFLINE 
Category: General 
Status: Fixed 
Target-Source: N/A 
Subject: Mask reconstruction CATS1-CATS2 run 223 

Mask between CATS1 and CATS2 in Z=-2190 Reconsctruction with nptool and attached mugast.detector and ConfigCATS.dat attached.

The beam seems to be shifted strongly to the [B]left[/B] of the beam line during the run. not clear yet if the shift of the mask is due to :

  •  shift of cats
  • shift of the mask itself
Attachment 1: MaskCATS1CATS2_run223.pdf  78 kB  Uploaded Fri Apr 5 12:26:55 2019  | Hide | Hide all
MaskCATS1CATS2_run223.pdf
Attachment 2: mugast.detector  3 kB  Uploaded Fri Apr 5 12:27:01 2019  | Hide | Hide all
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Target
 THICKNESS= 9.7 micrometer
 ANGLE= 0 deg
 RADIUS=  24 mm
 MATERIAL= CD2
 X= 0 mm
 Y= 0 mm
 Z= 0 mm
% CATS POSITION centered, slightly WRONG
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
CATSDetector
 X1_Y1=  35.56 -35.56  -2658 mm
 X28_Y28= -35.56  35.56  -2658 mm
 X1_Y28= 35.56  35.56  -2658 mm
 X28_Y1=  -35.56 -35.56  -2658 mm
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
CATSDetector
 X28_Y1=  -35.56  35.56   -2045 mm
 X1_Y28= 35.56 -35.56   -2045 mm
 X28_Y28= -35.56 -35.56   -2045 mm
 X1_Y1=  35.56  35.56   -2045 mm
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%%%%%%% Telescope 1 %%%%%%%
M2Telescope
 X128_Y128=  115.88  9.61  154.54 mm
 X128_Y1=  104.8  101.89  125.09 mm 
 X1_Y1=  14.55  102.4  160.63 mm
 X1_Y128=  25.63  10.12  190.08 mm
 SI=  1.00
 SILI= 0.00
 CSI= 1.00
 VIS= all

%%%%%%% Telescope 2 %%%%%%%
M2Telescope
 X128_Y128=  -11.23  102.42  160.87 mm
 X128_Y1=  -101.39  102.39  124.37 mm
 X1_Y1=  -113.17  10.36  153.56 mm
 X1_Y128=  -23.03  10.38  190.05 mm
 SI=  1.00
 SILI= 0.00
 CSI= 1.00
 VIS= all

%%%%%%% Telescope 3 %%%%%%%
M2Telescope
 X128_Y128=  -113.28  -12.52  153.32 mm
 X128_Y1=  -101.58  -104.77  124.82 mm
 X1_Y1=  -11.39  -104.58  161.48 mm
 X1_Y128=  -23.1  -12.34  189.98 mm
 SI= 1.00
 SILI= 0.00
 CSI= 1.00
 VIS= all

%%%%%%% Telescope 4 %%%%%%%
M2Telescope
 X128_Y128=  13.82  -104.92  160.72 mm
 X128_Y1=  104.3  -104.95  125.08 mm
 X1_Y1=  115.75  -12.73  153.76 mm
 X1_Y128=  25.23  -12.65  189.43 mm
 SI= 1.00
 SILI= 0.00
 CSI= 1.00
 VIS= all

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Trapezoid 
 DetectorNumber= 7
 X128_Y128=  40.99  21.69  -98.21 mm
 X1_Y128=  23.34  39.63  -98.04 mm
 X1_Y1=  57.53  120.53  -32.58 mm
 X128_Y1=  122.2  55.73  -32.67 mm


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Trapezoid 
 DetectorNumber= 3
 X128_Y128=  -48.05  -23.23  -95.05 mm
 X1_Y128=  -24.83  -39.35  -99.33 mm
 X1_Y1=  -58.24  -119.46  -32.57 mm
 X128_Y1=  -122.86  -54.55  -32.41 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Trapezoid      
 DetectorNumber= 1
 X128_Y128=  -23.05  42.83  -99.66 mm
 X1_Y128=  -40.74  25.21  -99.65 mm
 X1_Y1=  -120.65  58.67  -32.39 mm
 X128_Y1=  -55.66  123.17  -32.55 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Trapezoid      
 DetectorNumber= 5
 X128_Y128=  21.68  -41.48  -100.19 mm
 X1_Y128=  39.55  -23.81  -100.11 mm
 X1_Y1=  119.55  -57.08  -33.23 mm
 X128_Y1=  54.81  -121.7  -33.12 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Trapezoid      
 DetectorNumber= 4
 X128_Y128=  -15.11  -44.73  -99.25 mm
 X1_Y128=  10.11  -44.71  -99.35 mm
 X1_Y1=  43.37  -125.07  -32.74 mm
 X128_Y1=  -48.18  -125.07  -32.45 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Square      
 DetectorNumber= 10
 X128_Y128=  111.36  97.74  89.82 mm
 X1_Y128=  147.47  9.83  90 mm
 X1_Y1=  147.7  9.88  -1.79 mm
 X128_Y1=  111.63  97.7  -2.02 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Square 
 DetectorNumber= 9
 X128_Y128= 107.49 -95.88 0.0 mm
 X1_Y128=  143.81 -8.21 0.0 mm
 X1_Y1= 143.81 -8.21 91.7  mm
 X128_Y1= 107.49 -95.88 91.7 mm

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Mugast Annular  
 DetectorNumber= 11
 Center=  -0.3 1 -126.9 mm

ModularLeaf 
 DefaultValue= -5000
 Leafs= GATCONF_MASTER GATCONF_SLAVE1 GATCONF_SLAVE2 CONFDEC_AGATA CONFDEC_VAMOS DATATRIG_CATS1 DATATRIG_CATS2 TMG_MUGAST_HF TCATS_MUGAST_HF TVAMOS_MUGAST_HF EVAMOS_AGATA ECATS_AGATA E_AGATA
 X= TMG_MUGAST_HF        TMG_MUGAST_HF         TCATS_MUGAST_HF     EVAMOS_AGATA      EVAMOS_AGATA        ECATS_AGATA 
 Y= TVAMOS_MUGAST_HF    TCATS_MUGAST_HF        TVAMOS_MUGAST_HF       E_AGATA        ECATS_AGATA           E_AGATA 
% Leafs=
% X=
% Y=
Attachment 3: ConfigCATS.dat  1 kB  Uploaded Fri Apr 5 12:27:05 2019  | Hide | Hide all
ConfigCATS

ZPROJ -2190


% RECONSTRUCTION METHOD
% 5 recosntructions are available :
% FSECH : for fitted hyperbolic secante method 
% ASECH : for analytic hyperbolic secante method
% AGAUSS : for analytic Gaussian method
% CENTROIDE : for a simple centroide method
 RECONSTRUCTION_METHOD CATS1X ASECH
 RECONSTRUCTION_METHOD CATS1Y ASECH
 RECONSTRUCTION_METHOD CATS2X ASECH
 RECONSTRUCTION_METHOD CATS2Y ASECH



% INVERSION CATS2 11 and 12 inversed   
%DISABLE_CHANNEL CATS2STRX27



% CORRECTION (Correction3Points or Correction4Points : depends on the reconstruction method)
% use Correction3Points for GAUSS, SECH or BAR3
% use Correction4Points for BAR4
%        CORRECTION_METHOD CATS1X Correction4Points
%        CORRECTION_METHOD CATS1Y Correction4Points
%        CORRECTION_METHOD CATS2X Correction4Points
%        CORRECTION_METHOD CATS2Y Correction4Points

% CORRECTION COEF
% See TCATSPhyscis.cxx to see the correction formula where the coefficient of correction is applied. 
 %       CORRECTION_COEF CATS1X 0.60
 %       CORRECTION_COEF CATS1Y 0.60
 %       CORRECTION_COEF CATS2X 0.60
 %       CORRECTION_COEF CATS2Y 0.60

 SHIFT_CATS CATS1X 0
 SHIFT_CATS CATS1Y 0
 SHIFT_CATS CATS2X 0
 SHIFT_CATS CATS2Y 0


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