ID |
Date |
Author |
Category |
Subject |
156
|
Wed Jun 30 15:21:44 2021 |
Shahab | Runs | data synch on WWW server |
Data is being shared on the WWW server.
Time difference between the analyzers is in order of seconds:
time stamp of the 245MHz data is leading those of 410MHz by 21.733 [s] |
191
|
Fri Jul 2 01:39:51 2021 |
IK, KK | Runs | drop of intensity |
We see a drop in beam intensity from 7E9 to 2E8 between 01:30 and 01:43 |
194
|
Fri Jul 2 03:10:03 2021 |
IK, KK | Runs | drop of intensity |
We see that intensity stabalized at 9E8 which is smaller then before.
We neticed this at 2:50, keep observing. |
195
|
Fri Jul 2 03:19:49 2021 |
IK, KK | Runs | drop of intensity |
And the intensity is back again to 5E9 at 03:20 |
206
|
Fri Jul 2 12:18:35 2021 |
Pavlos, Alexandre | Accelerator | e-cooling |
Sergey Litvinov will now try to setup the e-cooler to cool the beam in the ESR.
The data taking has been stopped (except the NTCAP). |
198
|
Fri Jul 2 05:08:16 2021 |
Guy Leckenby (Canadian beaver team) | Analysis | e143_analyser.py Summing Script |
I've written two scripts that others might find useful for the on-line analysis.
1. The first is a simple bash script that runs a for loop to run the e143_analyzer.py script for a sequence of start values (-s). You'll need to change the increment and
start/end of the for loop to set the time resolution.
2. The second is a root script that takes the above generated scripts, reads the histograms, and then fills a 2D histogram. You'll need to adjust the TH2 bin number to
match both the bin number of the TH1s and the number of analysed files. I've included a print line to help identify the TH1 bin number.
To see the first results, I've attached a sum of July 1st 22-23h data. Sadly, I don't see any indication of the isomer, or at least the production is very low. |
Attachment 1: e143_sum_ana.bash
|
#!/usr/bin/env bash
for i in $(seq 0 0.02 2)
do
python e143_analyzer.py -t 0.02 -s $i -o 410MHz-07.01.22h_s${i}_t0.02 E143_Data/sparc-daq-02.gsi.de/E143-410MHz/410MHz-2021.07.01.22*.tiq
done
|
Attachment 2: e143_comparison.C
|
#define e143_comparison_cxx
#include <iostream>
#include <math.h>
#include <vector>
#include "TROOT.h"
#include "TFile.h"
#include "TChain.h"
#include "TTree.h"
#include "TBranch.h"
#include "TCanvas.h"
#include "TGraph.h"
#include "TGraphPainter.h"
#include "TColor.h"
#include "TH1.h"
#include "TH2.h"
#include "TH3.h"
#include "TH1F.h"
#include "TH2F.h"
#include "TH3F.h"
#include "THStack.h"
#include "THistPainter.h"
using namespace std;
void e143_comparison()
{
TH2 *h1vt_410MHz_07m01d22h_10ms = new TH2F("h1vt_410MHz_07m01d22h_10ms","410Mhz 07.01.22h Additiion (10 ms res);frequency (Hz);time (s)",256,4.06704e+08,4.06753e+08,200,0,2);
int nframes = 200;
vector<TFile*> tf_frames;
vector<TH1*> h1_frames(nframes,NULL);
char chname[300];
for(int i=0; i<nframes; i++)
{
sprintf(chname,"E143_Results/410MHz-07.01.22h_s%.2f_t0.01.root",i*0.01);
//cout << chname << endl;
tf_frames.push_back(new TFile(chname));
tf_frames[i]->GetObject("th1f",h1_frames[i]);
for(long j=0; j<256; j++)
{
h1vt_410MHz_07m01d22h_10ms->SetBinContent(j+1, i+1, h1_frames[i]->GetBinContent(j));
}
}
cout << "Total Bins: " << h1_frames[100]->GetNbinsX() << ", Xlow: " << h1_frames[100]->GetBinCenter(1) << ", Xhigh: " << h1_frames[100]->GetBinCenter(h1_frames[100]->GetNbinsX()) << endl;
TCanvas *c1 = new TCanvas("c1","c1",50,50,1000,800);
h1vt_410MHz_07m01d22h_10ms->Draw("COLZ");
TFile *fhists = new TFile("e143_added_th2s.root","RECREATE");
h1vt_410MHz_07m01d22h_10ms->Write();
cout << "Written h1vt_410MHz_07m01d22h_10ms to file." << endl;
fhists->Close();
}
int main ()
{
e143_comparison();
return 0;
}
|
Attachment 3: 410MHz-07.01.22h-sum_20ms.png
|
|
1
|
Fri Apr 23 13:47:55 2021 |
Jan Glorius | Collaboration | experiment proposal |
|
Attachment 1: ESR_Two-Photon_proposal_final.pdf
|
|
64
|
Sat May 8 01:33:25 2021 |
Helmut Weick | Simulations | frequency list for 70Se setting |
EXCEL table with all possible fragments injected into ESR.
The path length in ESR, gamma_t and harmonic are adjusted to the 72Ge data.
Some lifetimes are limited but all intense lines are >30s in lab system.
There are two versions (for cooled beam with fixed v or uncooled (isochronous)
with fixed average Brho, take the second (grey) column.
For larger frequency shifts harmonics will overlap.
You can add more isomers. |
Attachment 1: freq-lines-70Se.JPG
|
|
Attachment 2: frag-freq-list.xlsx
|
131
|
Mon May 10 06:35:58 2021 |
Kanika, Alex, Shahab | Runs | going back to shot by shot recording with 410 detector |
going back to shot by shot recording with 410 detector |
54
|
Fri May 7 18:08:35 2021 |
Kanika, Sergey, Yuri, Wolfram, Michael, Shahab | Runs | going back to the original energy |
going back to the original energy 441 MeV/u
last filenames with the previous energy:
245: 2021.05.07.17.07.00.543
410: 2021.05.07.18.07.18.037 |
178
|
Thu Jul 1 19:34:11 2021 |
Shahab | DAQ | increase factor 4 in power for 410 |
increase factor 4 in power for 410
before:
410MHz-2021.07.01.18.48.07.516.tiq.png
after:
410MHz-2021.07.01.19.23.49.099.tiq.png |
Attachment 1: 410MHz-2021.07.01.19.23.49.099.tiq.png
|
|
Attachment 2: 410MHz-2021.07.01.18.48.07.516.tiq.png
|
|
182
|
Thu Jul 1 21:35:15 2021 |
Shahab | DAQ | increase factor 4 in power for 410 |
increase factor 4 in power for 410
before:
410MHz-2021.07.01.18.48.07.516.tiq.png
after:
410MHz-2021.07.01.19.23.49.099.tiq.png |
126
|
Mon May 10 03:37:53 2021 |
Chris C | Analysis | isomer? or wishful thinking? |
They are not easy to find, but we do occasionally see what might be the isomer. |
Attachment 1: E143-410MHz-2021.05.10.03.24.33.255.PNG
|
|
142
|
Tue Jun 29 21:15:01 2021 |
Kanika, Shahab | Runs | lost beam problem Unilac |
cooling water in UNILAC is out |
21
|
Fri May 7 01:07:27 2021 |
Helmut Weick | Analysis | maybe frequency ID |
We think we see the frequency range of A/q=2.25 at 243.1 MHz.
This would correspond to L=108.2m and E=386.4 MeV/u (gamma_t = 1.3955) at h = 126.
Path length is a bit short, for L=108.4m it should be 370.6 MeV/u.
(later reanalysis shows the measured frequency corresponds to 108.38m, which is like expected)
We closed scrapers on arc outside and straight section outside to limit Brho from both sides.
GE02DS3HG = -35mm, GEEXDS2AH = -25mm
Expected frequencies see below: |
Attachment 1: frequencies.JPG
|
|
205
|
Fri Jul 2 11:44:25 2021 |
Helmut, Yuri | Accelerator | move scrapers to see effect on unknown lines |
We close the arc inside and straight section inside scrapers to narrow and cut the 70Se line.
Then look what the other lines left of 70Se will do.
1st series with E01DS_HI
-58 - intensity as before
-52 - still as before
-50 - still full
-45 - less intensity but about same width
-40 - almost gone
0 - gone
-58 - back to old position
2nd series with EEXDS1HG
16.0 - full
15.0 - full
12.5 - less
10.5 - less intensity
9.7 - appears only sometimes
8.2 - gone
10.8 - middle intensity and more narrow, measure for a while |
49
|
Fri May 7 16:17:21 2021 |
Sergey, Yuri, Wolfram, Shahab | Runs | new sextupole setting |
new sextupole setting, isomer not visible yet. |
50
|
Fri May 7 17:02:51 2021 |
Kanika, Sergey, Yuri, Wolfram, Michael, Shahab | Runs | new sextupole setting 2 |
There is new sextupole settings, but the scrapers remain like last night (Helmut setting last night.) |
122
|
Mon May 10 00:41:20 2021 |
Chris C | Accelerator | no beam |
Beam gone ~0:34.
Working on getting it back.
Back in business ~0:57. |
94
|
Sun May 9 05:38:29 2021 |
Iris, Chris G. | Analysis | offset btw png and tiq files from server? |
This might have been answered before but I looked at one png file and one tiq file from the same run that was stored on the server. There seems to be an offset of 2.2 s. The png file from the server (right) shows the injection at ~5s, whereas when I look at the tiq file in the GUI (left), the injection is at ~2.8 s???? Is the looper introducing this offset? |
Attachment 1: comp-116.png
|
|