AIDA GELINA BRIKEN nToF CRIB ISOLDE CIRCE nTOFCapture DESPEC DTAS EDI_PSA 179Ta CARME StellarModelling DCF K40
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ID Date Authordown Subject
  126   Sun Jun 16 01:36:08 2019 VictorMm 100Sn beam
Attachment 1: Mm_beam_ON_100Sn_runs9-11.png
Mm_beam_ON_100Sn_runs9-11.png
Attachment 2: Mm_beam_ON_100Sn_runs9-11_zoom.png
Mm_beam_ON_100Sn_runs9-11_zoom.png
Attachment 3: Mm_beam_ON_100Sn_runs9-11.C 
{
//=========Macro generated from canvas: c2/Canvas
//=========  (Sun Jun 16 02:44:48 2019) by ROOT version5.34/36
   TCanvas *c2 = new TCanvas("c2", "Canvas",65,24,1303,744);
   gStyle->SetOptStat(0);
   c2->Range(0,0,1,1);
   c2->SetFillColor(10);
   c2->SetBorderMode(0);
   c2->SetBorderSize(2);
   c2->SetFrameFillColor(0);
   c2->SetFrameBorderMode(0);
  
// ------------>Primitives in pad: pad1
   TPad *pad1 = new TPad("pad1", "Pad",0,0,1,1);
   pad1->Draw();
   pad1->cd();
   pad1->Range(-594.2857,-23200.36,4361.905,120612);
   pad1->SetFillColor(10);
   pad1->SetBorderMode(0);
   pad1->SetBorderSize(2);
   pad1->SetLeftMargin(0.1199078);
   pad1->SetRightMargin(0.04073789);
   pad1->SetTopMargin(0.07777778);
   pad1->SetBottomMargin(0.1402778);
   pad1->SetFrameFillColor(0);
   pad1->SetFrameBorderMode(0);
   pad1->SetFrameBorderMode(0);
   
   TH1D *E_SUM = new TH1D("E_SUM"," ",14000,0,140000);
   E_SUM->SetBinContent(2,105345);
   E_SUM->SetBinContent(3,95898);
   E_SUM->SetBinContent(4,46529);
   E_SUM->SetBinContent(5,45264);
   E_SUM->SetBinContent(6,64447);
   E_SUM->SetBinContent(7,71757);
   E_SUM->SetBinContent(8,95053);
   E_SUM->SetBinContent(9,130595);
   E_SUM->SetBinContent(10,135550);
   E_SUM->SetBinContent(11,135651);
   E_SUM->SetBinContent(12,127283);
   E_SUM->SetBinContent(13,126797);
   E_SUM->SetBinContent(14,129990);
   E_SUM->SetBinContent(15,129813);
   E_SUM->SetBinContent(16,127287);
   E_SUM->SetBinContent(17,126975);
   E_SUM->SetBinContent(18,123029);
   E_SUM->SetBinContent(19,120656);
   E_SUM->SetBinContent(20,119487);
   E_SUM->SetBinContent(21,117725);
   E_SUM->SetBinContent(22,116024);
   E_SUM->SetBinContent(23,118288);
   E_SUM->SetBinContent(24,118185);
   E_SUM->SetBinContent(25,115505);
   E_SUM->SetBinContent(26,115745);
   E_SUM->SetBinContent(27,109000);
   E_SUM->SetBinContent(28,97940);
   E_SUM->SetBinContent(29,89343);
   E_SUM->SetBinContent(30,84545);
   E_SUM->SetBinContent(31,82657);
   E_SUM->SetBinContent(32,80738);
   E_SUM->SetBinContent(33,79684);
   E_SUM->SetBinContent(34,77951);
   E_SUM->SetBinContent(35,79363);
   E_SUM->SetBinContent(36,84951);
   E_SUM->SetBinContent(37,90827);
   E_SUM->SetBinContent(38,98075);
   E_SUM->SetBinContent(39,101285);
   E_SUM->SetBinContent(40,96854);
   E_SUM->SetBinContent(41,82521);
   E_SUM->SetBinContent(42,68510);
   E_SUM->SetBinContent(43,61833);
   E_SUM->SetBinContent(44,58300);
   E_SUM->SetBinContent(45,57335);
   E_SUM->SetBinContent(46,56323);
   E_SUM->SetBinContent(47,55170);
   E_SUM->SetBinContent(48,54364);
   E_SUM->SetBinContent(49,54816);
   E_SUM->SetBinContent(50,55183);
   E_SUM->SetBinContent(51,56755);
   E_SUM->SetBinContent(52,59195);
   E_SUM->SetBinContent(53,63513);
   E_SUM->SetBinContent(54,66590);
   E_SUM->SetBinContent(55,66420);
   E_SUM->SetBinContent(56,63371);
   E_SUM->SetBinContent(57,58230);
   E_SUM->SetBinContent(58,55070);
   E_SUM->SetBinContent(59,52672);
   E_SUM->SetBinContent(60,53033);
   E_SUM->SetBinContent(61,52495);
   E_SUM->SetBinContent(62,52289);
   E_SUM->SetBinContent(63,51402);
   E_SUM->SetBinContent(64,49940);
   E_SUM->SetBinContent(65,49273);
   E_SUM->SetBinContent(66,48174);
   E_SUM->SetBinContent(67,46469);
   E_SUM->SetBinContent(68,44513);
   E_SUM->SetBinContent(69,43277);
   E_SUM->SetBinContent(70,41987);
   E_SUM->SetBinContent(71,40550);
   E_SUM->SetBinContent(72,40234);
   E_SUM->SetBinContent(73,40035);
   E_SUM->SetBinContent(74,39309);
   E_SUM->SetBinContent(75,39766);
   E_SUM->SetBinContent(76,39350);
   E_SUM->SetBinContent(77,39135);
   E_SUM->SetBinContent(78,38444);
   E_SUM->SetBinContent(79,38443);
   E_SUM->SetBinContent(80,37413);
   E_SUM->SetBinContent(81,36768);
   E_SUM->SetBinContent(82,36016);
   E_SUM->SetBinContent(83,34601);
   E_SUM->SetBinContent(84,33611);
   E_SUM->SetBinContent(85,32575);
   E_SUM->SetBinContent(86,32719);
   E_SUM->SetBinContent(87,32487);
   E_SUM->SetBinContent(88,33706);
   E_SUM->SetBinContent(89,34819);
   E_SUM->SetBinContent(90,36509);
   E_SUM->SetBinContent(91,37732);
   E_SUM->SetBinContent(92,38699);
   E_SUM->SetBinContent(93,38569);
   E_SUM->SetBinContent(94,37928);
   E_SUM->SetBinContent(95,36115);
   E_SUM->SetBinContent(96,34749);
   E_SUM->SetBinContent(97,32657);
   E_SUM->SetBinContent(98,31494);
   E_SUM->SetBinContent(99,30498);
   E_SUM->SetBinContent(100,29508);
   E_SUM->SetBinContent(101,29261);
   E_SUM->SetBinContent(102,29368);
   E_SUM->SetBinContent(103,30838);
   E_SUM->SetBinContent(104,33662);
   E_SUM->SetBinContent(105,38839);
   E_SUM->SetBinContent(106,45283);
   E_SUM->SetBinContent(107,50123);
   E_SUM->SetBinContent(108,53860);
   E_SUM->SetBinContent(109,52295);
   E_SUM->SetBinContent(110,47506);
   E_SUM->SetBinContent(111,40709);
   E_SUM->SetBinContent(112,33875);
   E_SUM->SetBinContent(113,28647);
   E_SUM->SetBinContent(114,25722);
   E_SUM->SetBinContent(115,23842);
   E_SUM->SetBinContent(116,22987);
   E_SUM->SetBinContent(117,22531);
   E_SUM->SetBinContent(118,22111);
   E_SUM->SetBinContent(119,21944);
   E_SUM->SetBinContent(120,21363);
   E_SUM->SetBinContent(121,21057);
   E_SUM->SetBinContent(122,20733);
   E_SUM->SetBinContent(123,20849);
   E_SUM->SetBinContent(124,20839);
   E_SUM->SetBinContent(125,20991);
   E_SUM->SetBinContent(126,21260);
   E_SUM->SetBinContent(127,21792);
   E_SUM->SetBinContent(128,22530);
   E_SUM->SetBinContent(129,23413);
   E_SUM->SetBinContent(130,24746);
   E_SUM->SetBinContent(131,25968);
   E_SUM->SetBinContent(132,27338);
   E_SUM->SetBinContent(133,28384);
   E_SUM->SetBinContent(134,29222);
   E_SUM->SetBinContent(135,29736);
   E_SUM->SetBinContent(136,29653);
   E_SUM->SetBinContent(137,28905);
   E_SUM->SetBinContent(138,29330);
   E_SUM->SetBinContent(139,28968);
   E_SUM->SetBinContent(140,28356);
   E_SUM->SetBinContent(141,27877);
   E_SUM->SetBinContent(142,27297);
   E_SUM->SetBinContent(143,26761);
   E_SUM->SetBinContent(144,26002);
   E_SUM->SetBinContent(145,26183);
   E_SUM->SetBinContent(146,27296);
   E_SUM->SetBinContent(147,28284);
   E_SUM->SetBinContent(148,30445);
   E_SUM->SetBinContent(149,32117);
   E_SUM->SetBinContent(150,33783);
   E_SUM->SetBinContent(151,34637);
   E_SUM->SetBinContent(152,34007);
   E_SUM->SetBinContent(153,32040);
   E_SUM->SetBinContent(154,30368);
   E_SUM->SetBinContent(155,27461);
   E_SUM->SetBinContent(156,24694);
   E_SUM->SetBinContent(157,22251);
   E_SUM->SetBinContent(158,19958);
   E_SUM->SetBinContent(159,18371);
   E_SUM->SetBinContent(160,17047);
   E_SUM->SetBinContent(161,16007);
   E_SUM->SetBinContent(162,15355);
   E_SUM->SetBinContent(163,15208);
   E_SUM->SetBinContent(164,15380);
   E_SUM->SetBinContent(165,15338);
   E_SUM->SetBinContent(166,15968);
   E_SUM->SetBinContent(167,15840);
   E_SUM->SetBinContent(168,15969);
   E_SUM->SetBinContent(169,15595);
   E_SUM->SetBinContent(170,15237);
   E_SUM->SetBinContent(171,14957);
   E_SUM->SetBinContent(172,14235);
   E_SUM->SetBinContent(173,14081);
   E_SUM->SetBinContent(174,13541);
   E_SUM->SetBinContent(175,13582);
   E_SUM->SetBinContent(176,13532);
   E_SUM->SetBinContent(177,13609);
   E_SUM->SetBinContent(178,13965);
   E_SUM->SetBinContent(179,13724);
   E_SUM->SetBinContent(180,13610);
   E_SUM->SetBinContent(181,13617);
   E_SUM->SetBinContent(182,12797);
   E_SUM->SetBinContent(183,12357);
   E_SUM->SetBinContent(184,11878);
   E_SUM->SetBinContent(185,11269);
   E_SUM->SetBinContent(186,10773);
   E_SUM->SetBinContent(187,10407);
   E_SUM->SetBinContent(188,10348);
   E_SUM->SetBinContent(189,10151);
   E_SUM->SetBinContent(190,9992);
   E_SUM->SetBinContent(191,10065);
   E_SUM->SetBinContent(192,10345);
   E_SUM->SetBinContent(193,10721);
   E_SUM->SetBinContent(194,10970);
   E_SUM->SetBinContent(195,11589);
   E_SUM->SetBinContent(196,12053);
   E_SUM->SetBinContent(197,11978);
   E_SUM->SetBinContent(198,12575);
   E_SUM->SetBinContent(199,12476);
   E_SUM->SetBinContent(200,12122);
   E_SUM->SetBinContent(201,11362);
   E_SUM->SetBinContent(202,11014);
   E_SUM->SetBinContent(203,10344);
   E_SUM->SetBinContent(204,9735);
   E_SUM->SetBinContent(205,9402);
   E_SUM->SetBinContent(206,9199);
   E_SUM->SetBinContent(207,8557);
   E_SUM->SetBinContent(208,8106);
   E_SUM->SetBinContent(209,8040);
   E_SUM->SetBinContent(210,7840);
   E_SUM->SetBinContent(211,7486);
   E_SUM->SetBinContent(212,7471);
   E_SUM->SetBinContent(213,7414);
   E_SUM->SetBinContent(214,7468);
   E_SUM->SetBinContent(215,7534);
   E_SUM->SetBinContent(216,7484);
   E_SUM->SetBinContent(217,7685);
   E_SUM->SetBinContent(218,7718);
   E_SUM->SetBinContent(219,7916);
   E_SUM->SetBinContent(220,7880);
   E_SUM->SetBinContent(221,7868);
   E_SUM->SetBinContent(222,7807);
   E_SUM->SetBinContent(223,8064);
   E_SUM->SetBinContent(224,7881);
   E_SUM->SetBinContent(225,7774);
   E_SUM->SetBinContent(226,7751);
   E_SUM->SetBinContent(227,7434);
   E_SUM->SetBinContent(228,7479);
   E_SUM->SetBinContent(229,7235);
   E_SUM->SetBinContent(230,7044);
   E_SUM->SetBinContent(231,7044);
   E_SUM->SetBinContent(232,7016);
   E_SUM->SetBinContent(233,7003);
   E_SUM->SetBinContent(234,7093);
   E_SUM->SetBinContent(235,6902);
   E_SUM->SetBinContent(236,6962);
   E_SUM->SetBinContent(237,6880);
   E_SUM->SetBinContent(238,6865);
   E_SUM->SetBinContent(239,7001);
   E_SUM->SetBinContent(240,6883);
   E_SUM->SetBinContent(241,6953);
   E_SUM->SetBinContent(242,6866);
   E_SUM->SetBinContent(243,7012);
   E_SUM->SetBinContent(244,7290);
   E_SUM->SetBinContent(245,7296);
   E_SUM->SetBinContent(246,7356);
   E_SUM->SetBinContent(247,7568);
   E_SUM->SetBinContent(248,7612);
   E_SUM->SetBinContent(249,7569);
   E_SUM->SetBinContent(250,7653);
   E_SUM->SetBinContent(251,7571);
   E_SUM->SetBinContent(252,7552);
   E_SUM->SetBinContent(253,7499);
   E_SUM->SetBinContent(254,7481);
   E_SUM->SetBinContent(255,7500);
   E_SUM->SetBinContent(256,7456);
   E_SUM->SetBinContent(257,7588);
   E_SUM->SetBinContent(258,7308);
   E_SUM->SetBinContent(259,7741);
   E_SUM->SetBinContent(260,7906);
   E_SUM->SetBinContent(261,7926);
   E_SUM->SetBinContent(262,8243);
   E_SUM->SetBinContent(263,8322);
   E_SUM->SetBinContent(264,8371);
   E_SUM->SetBinContent(265,8466);
   E_SUM->SetBinContent(266,8582);
   E_SUM->SetBinContent(267,8565);
   E_SUM->SetBinContent(268,8424);
   E_SUM->SetBinContent(269,8337);
   E_SUM->SetBinContent(270,8008);
   E_SUM->SetBinContent(271,7815);
   E_SUM->SetBinContent(272,7640);
... 20627 more lines ...
Attachment 4: Mm_beam_ON_100Sn_runs9-11_linear.png
Mm_beam_ON_100Sn_runs9-11_linear.png
  127   Sun Jun 16 02:07:29 2019 VictorTotal sum (black) and anodes

Different cuts at high energy in individual spectra (anodes) and effect in the total sum

Attachment 1: SUM_and_individuals_anodes_cut8MeV.png
SUM_and_individuals_anodes_cut8MeV.png
Attachment 2: SUM_and_individuals_anodes_cut20MeV.png
SUM_and_individuals_anodes_cut20MeV.png
  132   Sun Jun 16 07:31:01 2019 VictorThe bump in the mutiplicities
We have calculated the spectra of the module multiplicity for each side (careful! the maximum is 8, since it is
not the total multiplicity but the multiplicity of each side).
Attachment 1: Mm_sides_1.png
Mm_sides_1.png
Attachment 2: Mm_sides_2.png
Mm_sides_2.png
Attachment 3: Mm_sides_3.png
Mm_sides_3.png
Attachment 4: Mm_sides_4.png
Mm_sides_4.png
Attachment 5: Mm_sides_5.png
Mm_sides_5.png
Attachment 6: Mm_sides_6.png
Mm_sides_6.png
Attachment 7: Mm_sides_7.png
Mm_sides_7.png
Attachment 8: Mm_sides_8.png
Mm_sides_8.png
  136   Sun Jun 16 22:02:45 2019 VictorSum in coincidence with F11
TAC DTAS (slowest module of the sum) and F11

Total sum in coincidence with F11

Forward sum in coincidence with F11 (only 1-8 modules)

Backward sum in coincidence with F11 (only 11-18 modules)
Attachment 1: TAC_SUM_F11.png
TAC_SUM_F11.png
Attachment 2: Sum_coin_F11.png
Sum_coin_F11.png
Attachment 3: Sum_coin_F11_for_back.png
Sum_coin_F11_for_back.png
  137   Sun Jun 16 22:56:41 2019 Victorrates modules in coincidence with F11
Module	Rate cps	Rate coin. F11 cps	Difference cps
1	36.8868		13.4045			23.4824
2	11.9046		1.16338			10.7412
3	35.5992		12.8111			22.7881
4	12.114		1.2723			10.8417
5	37.6139		13.2296			24.3843
6	12.793		1.33943			11.4536
7	37.7954		13.4383			24.3571
8	12.4813		1.3365			11.1448
11	29.6067		7.84707			21.7597
12	12.0162		0.859941		11.1563
13	28.9357		7.5685			21.3672
14	11.4407		0.825287		10.6154
15	29.7828		7.77872			22.0041
16	11.4512		0.847232		10.604
17	29.7826		8.0374			21.7452
18	11.3122		0.850505		10.4617
  141   Mon Jun 17 06:28:06 2019 VictorMC number of implants
           Counts in DTAS
Proposal   2730 
4 days     888
5 days     1102
10 days    2196
Attachment 1: MC_100Sn_days.png
MC_100Sn_days.png
  142   Mon Jun 17 19:11:06 2019 VictorTAC slowest module vs fastest module DTAS 
Inside events of 320ns window
Attachment 1: TAC_last_module_1st_module.png
TAC_last_module_1st_module.png
  143   Mon Jun 17 19:12:33 2019 VictorTotal SUM in coincidence with AIDA Plastic
Also TAC DTAS-Plastic AIDA
Attachment 1: Sum_coin_PlasAIDA.png
Sum_coin_PlasAIDA.png
Attachment 2: TAC_SUM_PlasAIDA.png
TAC_SUM_PlasAIDA.png
  7   Wed May 15 08:11:46 2019 Tolosa, Nacher, Algora, KissEnergy resolutions
Using getSigmaCal.cxx macro to check energy resolutions...
root [3] getSigmaCal("201905151555_137Cs.root")


EAn01	660.978	20.4516	7.27122%	

EAn02	662.018	21.8206	7.74577%	

EAn03	654.685	21.2331	7.62164%	

EAn04	664.496	21.7799	7.70251%	

EAn05	661.188	21.3019	7.57112%	

EAn06	663.225	22.609	8.01103%	

EAn07	658.977	21.7486	7.75584%	

EAn08	661.333	21.1595	7.51887%	

EAn11	660.622	20.6158	7.33354%	

EAn12	662.106	22.8196	8.09931%	

EAn13	660.16	19.4654	6.92918%	

EAn14	660.348	22.9705	8.17459%	

EAn15	660.277	19.6762	7.00298%	

EAn16	661.323	22.0482	7.83478%	

EAn17	659.072	21.5303	7.6769%	

EAn18	662.739	22.9924	8.15284%	

EDy01	660.951	20.8514	7.41366%	

EDy02	661.465	22.2272	7.89669%	

EDy03	654.887	21.7742	7.81345%	

EDy04	663.585	22.2593	7.88284%	

EDy05	660.353	21.7962	7.75661%	

EDy06	661.692	23.2316	8.25072%	***

EDy07	658.636	22.3986	7.99178%	

EDy08	662.167	21.8422	7.75169%	

EDy11	661.634	21.2086	7.53289%	

EDy12	662.504	23.1784	8.22173%	***

EDy13	660.297	20.7076	7.36985%	

EDy14	662.493	23.5084	8.33893%	***

EDy15	661.844	20.3493	7.22539%	

EDy16	662.861	23.092	8.18665%	

EDy17	661.152	22.215	7.89612%	

EDy18	659.903	23.6411	8.41889%	***
Attachment 1: getSigmaCal.cxx 
#include "TH1.h"
#include "TSpectrum.h"
#include "TFile.h"
#include "TGraph.h"
#include "TF1.h"
#include "TMath.h"

#include <string>
#include <cmath>
#include <vector>
#include <iostream>
#include <map>
#include <sstream>


constexpr int eblow = 10; //bins
constexpr int rebinFac = 1; //
constexpr int maxnpeaks = 10; //max peaks to look for
constexpr double sigmaPeak = 4.0;
constexpr double thrPeak = 0.05;

constexpr double ene60Co1 = 1173.2;// keV
constexpr double ene60Co2 = 1332.5;// keV
constexpr double ene137Cs = 661.66;// keV

const std::vector<std::string> histoNames_v = { "EAn01",
						"EAn02",
						"EAn03",
						"EAn04",
						"EAn05",
						"EAn06",
						"EAn07",
						"EAn08",
						"EAn11",
						"EAn12",
						"EAn13",
						"EAn14",
						"EAn15",
						"EAn16",
						"EAn17",
						"EAn18",
						"EDy01",
						"EDy02",
						"EDy03",
						"EDy04",
						"EDy05",
						"EDy06",
						"EDy07",
						"EDy08",
						"EDy11",
						"EDy12",
						"EDy13",
						"EDy14",
						"EDy15",
						"EDy16",
						"EDy17",
						"EDy18"
						};

//const std::vector<std::string> histoNames_v = { "EDy18"	};


double ff (double *x,double*p){return p[0]*std::exp(-(*x - p[1])*(*x - p[1])/(2*p[2]*p[2]))+p[3];};
double ff2 (double *x,double*p){return p[0]*std::exp(-(*x - p[1])*(*x - p[1])/(2*p[2]*p[2]))+p[3]   + p[4]*ROOT::Math::erfc( (*x- p[1])/( sqrt(2)*p[2])) ;};



auto myTF1 = new TF1("myGaus", ff2 , 0 ,1 , 5 );

std::vector<TH1*> h_v;
std::vector<TH1*> hFit_v;

void getSigmaCal(std::string ifilename )
{
  TFile ifile( ifilename.c_str(), "read" );
  
  TH1 * h = nullptr;
  for( auto & histoName_it : histoNames_v )
  {
    ifile.GetObject( histoName_it.c_str(), h );
    if( h )
    {
      h->GetXaxis()->SetRangeUser(550,750);
      myTF1->SetParameters(1000,662,30,200,100);
      h->Fit("myGaus","");
      double mean(h->GetFunction("myGaus")->GetParameters()[1]);
      double sigma(h->GetFunction("myGaus")->GetParameters()[2]);
      
      std::cout << h->GetName() << "\t" << mean << "\t" << sigma << "\t" << 235*sigma/mean << "%\t" <<  std::endl;
      
      h_v.push_back( (TH1*) h->Clone( std::string( std::string(h->GetName()) + "_c" ).c_str() ) );
      h_v.back()->SetDirectory(0);
      hFit_v.push_back( (TH1*)h->GetFunction("myGaus")->CreateHistogram()->Clone( std::string( std::string(h->GetName()) + "_cFit" ).c_str() ) );
      hFit_v.back()->SetDirectory(0);
    }
    
  }
  ifile.Close();
  
  TFile ofile("calFit5.root","recreate");
  for(auto & vit : h_v )
    vit->Write();
//   for(auto & vit : hFit_v )
//     vit->Write();
  
  
  ofile.Close();
  
  return;
}
Attachment 2: calFit5.root
  102   Fri Jun 7 09:37:15 2019 The same teamCs for the AIDA synch test

Start: 17:41

Stop: 18:17

AIDA files: R19_1 (@17:57)

Dtas files: 201906071738_137Cs_AIDA_248.dlt

Comment: 137Cs (ID: XXXX) put in the centre of the DTAS on top of AIDA, with the help of the plastic ruler

  1   Tue May 14 09:41:24 2019 TDWelcome to the DTAS Elog
  100   Fri Jun 7 02:50:40 2019 SN, AAtest of 24Na

Start: 10:49

Stopt: 11:04

Lmd: 201906071049_24Na_AIDA_242.dlt

Root: 201906071117_24Na_AIDA_in.root

Comment: After irradiation of approximately 7 days, we extracted one Alu plate. It shows 24Na activity and also probably some beta+ activity.

The sample was not irradiated in the last 10 hours or so. It is positioned roughly in the center of the detector side in front of AIDA, using the frame prepared in Valencia.

It is not in the geometrical centre of the DTAS

Rates: 4.5 kHz (Dynodes), 4.5 (Anodes)  (Background level was at approximately 1.6-1.7 in both Dynodes, Anodes)

We need to check the alignment properly with Cs, but it looks that after one week some of the detectors have moved.

Group 1,3,5,7  (all seem to move with respect to detector 1)

Group 2,4,6,8 (detector 6 moved)

Group 11,13,15,17 (11 and 1 seem aligned, detector 13 moved)

Group 12, 14,16, 18 (12 and 2 not aligned, they seem aligned)

 

Attachment 1: 201906071117_24Na_AIDA_in.root
Attachment 2: Screenshot_from_2019-06-07_11-22-06.png
Screenshot_from_2019-06-07_11-22-06.png
Attachment 3: Screenshot_from_2019-06-07_11-24-39.png
Screenshot_from_2019-06-07_11-24-39.png
Attachment 4: Screenshot_from_2019-06-07_11-27-49.png
Screenshot_from_2019-06-07_11-27-49.png
Attachment 5: Screenshot_from_2019-06-07_11-30-17.png
Screenshot_from_2019-06-07_11-30-17.png
Attachment 6: Screenshot_from_2019-06-07_11-35-31.png
Screenshot_from_2019-06-07_11-35-31.png
Attachment 7: Screenshot_from_2019-06-07_11-36-43.png
Screenshot_from_2019-06-07_11-36-43.png
  117   Tue Jun 11 01:45:55 2019 Pancho, Alebackground
Start: 09:46

Stop: 13:49

Background, Aida in, no sources around, no beam

Root file: 20190611_1349_background_AIDA_in.root
Attachment 1: 20190611_1349_background_AIDA_in.root
  120   Sat Jun 15 18:15:08 2019 Pancho& Kikerun 9
Shifters: Pancho & Kike

Degrader: none
Comments :
Last configuration file: 190615_1935_Conf_DTAS.xlsx
########################################################

Date: 2019-06-16
Start: 00:35
DTAS run: 009
AIDA run: _26
BigRIPS run: 2006

Listmode DLT: 190616_0035_100Sn_009.dlt


########################################################
----> TODO LIST during shift (check it!)<----
CHECK HISTOGRAMS/ Time: xxxx
LSUMA (hist. 3), LSUMD (hist. 4), LCryA (hist. 7), LCryD (hist. 8) - OK
F11PLR (and *L) (hist. 65 and 66) - OK
AIDAPL (hist. 69) - OK
ERefAn (hist. 70) - OK
Group Dynodes, Anodes, Ancilliaries - OK
*****************

DTAS Rate-dynodes: 3.8kHz
DTAS Rate-anodes: 3.3kHz
F11 Rate (hist. 27 or 28): 180 cps
AIDA Veto Plastic Rate (hist. 26): 13 cps

Beam current: 6965 enA (134 pnA, = enA/Zet(Xe), Zet(Xe)=52)

************************************************************************************

************************************************************************************



########################################################

Date: June-16th
Stop:
DTAS run:
AIDA run:
BigRIPS run:

Online ROOT file:

########################################################

Note:

Images:

Image entitled EDy01 corresponds to Energy of Crystal Dynod 01 (black) and 11 (red)
Image entitled EDy02 corresponds to Energy of Crystal Dynod 02 (black) and 12 (red)
Image entitled EDy03 corresponds to Energy of Crystal Dynod 03 (black) and 13 (red) .. and so on

Image entitled ECryA corresponnd to the sum of anode signal of all crystals (black) and the TAS sum (red)
Attachment 1: Screenshot_from_2019-06-16_01-50-05.png
Screenshot_from_2019-06-16_01-50-05.png
Attachment 2: Screenshot_from_2019-06-16_01-50-40.png
Screenshot_from_2019-06-16_01-50-40.png
Attachment 3: Screenshot_from_2019-06-16_01-51-11.png
Screenshot_from_2019-06-16_01-51-11.png
Attachment 4: Screenshot_from_2019-06-16_01-51-35.png
Screenshot_from_2019-06-16_01-51-35.png
Attachment 5: Screenshot_from_2019-06-16_01-52-10.png
Screenshot_from_2019-06-16_01-52-10.png
Attachment 6: Screenshot_from_2019-06-16_01-52-37.png
Screenshot_from_2019-06-16_01-52-37.png
Attachment 7: Screenshot_from_2019-06-16_01-53-01.png
Screenshot_from_2019-06-16_01-53-01.png
Attachment 8: Screenshot_from_2019-06-16_01-53-35.png
Screenshot_from_2019-06-16_01-53-35.png
Attachment 9: Screenshot_from_2019-06-16_01-47-11.png
Screenshot_from_2019-06-16_01-47-11.png
  121   Sat Jun 15 18:38:15 2019 Pancho & Kikerun 12
Shifters: Pancho & Kike

Degrader: none
Comments :
Last configuration file: 190615_1935_Conf_DTAS.xlsx
########################################################

Date: 2019-06-16
Start: 02:33
DTAS run: 012
AIDA run: 43
BigRIPS run: 2007

Listmode DLT: 190616_0233_100Sn_012.dlt



########################################################
----> TODO LIST during shift (check it!)<----
CHECK HISTOGRAMS/ Time: xxxx
LSUMA (hist. 3), LSUMD (hist. 4), LCryA (hist. 7), LCryD (hist. 8) - OK
F11PLR (and *L) (hist. 65 and 66) - OK
AIDAPL (hist. 69) - OK
ERefAn (hist. 70) - OK
Group Dynodes, Anodes, Ancilliaries - OK
*****************

DTAS Rate-dynodes: 4.0kHz
DTAS Rate-anodes: 3.3kHz
F11 Rate (hist. 27 or 28): 180 cps
AIDA Veto Plastic Rate (hist. 26): 12 cps

Beam current: 6886 enA (132 pnA, = enA/Zet(Xe), Zet(Xe)=52)

************************************************************************************

************************************************************************************



########################################################

Date: June-16th
Stop:
DTAS run:
AIDA run:
BigRIPS run:

Online ROOT file:
########################################################

Note:
  122   Sat Jun 15 18:39:07 2019 Pancho & Kikeroot files
100Sn root files corresponding to runs 06,07,08 (190616_0030_100Sn_008.root) and runs 09,10,11 (190616_0230_100Sn_011.root) two hours each
Attachment 1: 190616_0030_100Sn_008.root
Attachment 2: 190616_0230_100Sn_011.root
  123   Sat Jun 15 20:43:50 2019 Pancho & Kikeroot file data 2:30 - 4:30
corresponding to runs .dlt 12-14
Attachment 1: 190616_0430_100Sn_014.root
  124   Sat Jun 15 22:43:20 2019 Pancho & Kikeroot file data 4:30 - 6:30
corresponding to runs .dlt 15-17


Images:

EAn01: All anodes energies overlay. EAn12 shows a bump between 50-100 keV and a peak between 100-120 keV


LAn01: all anodes lights overlayed. In LAn06 a peak is seen between 20-30 au (keV?); for LAn12 two bumps are seen between 80-120 au (keV?) and between 130-150 au (keV?)
Attachment 1: 190616_0630_100Sn_017.root
Attachment 2: Screenshot_from_2019-06-16_06-41-32.png
Screenshot_from_2019-06-16_06-41-32.png
Attachment 3: Screenshot_from_2019-06-16_06-42-55.png
Screenshot_from_2019-06-16_06-42-55.png
  105   Sat Jun 8 04:38:30 2019 Nacher, Algora, Tain, Molinasource top and bottom

137Cs top and bottom test... to check differences we positiones the source at the top and bottom of AIDA respectively.

Furthermore, we have changed the LED rate. Source reference: Cs401 - 4763

Root files:

201906081252_137Cs_AIDA_in_top.root  (pulser 100 Hz) (Attachment 2)

201906081228_137Cs_AIDA_in_bottom.root (pulser 10 Hz) (Attachment 3)

For each detector (An & Dy), the peak is plotted when the source is at top & bottom (Attachment 1).

 

 

Attachment 1: testOfPositioning.tar
Attachment 2: 201906081252_137Cs_AIDA_in_top.root
Attachment 3: 201906081228_137Cs_AIDA_in_bottom.root
  12   Thu May 16 02:57:15 2019 Nacher, Algorathreshold dynode #13 increased
Threshold of dynode #13 changed from 500 to 700 because of a very high noise.
New configuration file: 20190516_Conf.xlsx (attached).
Attachment 1: 20190516_Conf.xlsx
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