TAC AIDAPL - CryA changed
After increasing the gain, x2 peaks in TAC

Also TAC DTAS-Plastic AIDA

Inside events of 320ns window

           Counts in DTAS
Proposal   2730 
4 days     888
5 days     1102
10 days    2196

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

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)

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).

We have noticed that there is a problems in the coincidence Crystals-F11. The TAC shows a lot of counts. The
Crystals spectrum in coincidence with F11 do not. The time window of this coincidence is from-50 to 50 samples
and it should be from -180 to 300 samples to be centered in the peak of the TAC.

We will change it at soon as possible

The beam stopped a couple of times due to problems before RRC

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

Problem with the sync checker appeared AIDA was not its notmal 14us out from DTAS.

Check with source shows we are in sync still

AIDA files R34_1 and R34_2

In-beam experiment going on. Only 12h of beam in the last 21h.

Start: ~1pm (11th-June)
Stop: ~10am (12th-June)

Start: 09:46

Stop: 13:49

Background, Aida in, no sources around, no beam

Root file: 20190611_1349_background_AIDA_in.root

Conf file with new calibration:
20190610_2035_Conf_DTAS.xlsx

Check root file:
20190610_2050_60Co_137Cs_AIDA_in.root

See screen shots:

New calibration with more statistics
File: 20190610_2030_60Co_137Cs_AIDA_in.root

An01_EFIR	306750	536250	606750
An02_EFIR	281250	489750	554250
An03_EFIR	282750	492750	558750
An04_EFIR	263250	456750	518250
An05_EFIR	270750	471750	534750
An06_EFIR	308250	537750	609750
An07_EFIR	290250	506250	572250
An08_EFIR	284250	494250	560250
An11_EFIR	365250	636750	720750
An12_EFIR	263250	459750	519750
An13_EFIR	321750	560250	635250
An14_EFIR	327750	572250	648750
An15_EFIR	299250	521250	590250
An16_EFIR	287250	500250	566250
An17_EFIR	296250	516750	585750
An18_EFIR	273750	479250	542250
Dy01_EFIR	34296.9	59609.4	67578.1
Dy02_EFIR	33828.1	59140.6	66953.1
Dy03_EFIR	34140.6	59453.1	67421.9
Dy04_EFIR	34140.6	59453.1	67265.6
Dy05_EFIR	34453.1	59921.9	67890.6
Dy06_EFIR	33984.4	59453.1	67421.9
Dy07_EFIR	34453.1	60078.1	68046.9
Dy08_EFIR	33828.1	58984.4	66796.9
Dy11_EFIR	34453.1	60078.1	68046.9
Dy12_EFIR	34296.9	59921.9	67890.6
Dy13_EFIR	34296.9	59609.4	67578.1
Dy14_EFIR	34296.9	59921.9	68046.9
Dy15_EFIR	33984.4	59453.1	67421.9
Dy16_EFIR	34296.9	59921.9	67578.1
Dy17_EFIR	34296.9	59921.9	67734.4
Dy18_EFIR	33984.4	59453.1	67265.6
An01_EFIR	306750	536250	606750	0.00223435	-23.9647
An02_EFIR	281250	489750	554250	0.00245634	-29.3018
An03_EFIR	282750	492750	558750	0.00243187	-25.7883
An04_EFIR	263250	456750	518250	0.00263384	-31.3306
An05_EFIR	270750	471750	534750	0.00254201	-26.4752
An06_EFIR	308250	537750	609750	0.00222596	-24.3613
An07_EFIR	290250	506250	572250	0.00237623	-28.3674
An08_EFIR	284250	494250	560250	0.00243187	-29.4361
An11_EFIR	365250	636750	720750	0.00188632	-27.4314
An12_EFIR	263250	459750	519750	0.00261235	-26.3813
An13_EFIR	321750	560250	635250	0.00214105	-27.0487
An14_EFIR	327750	572250	648750	0.00209042	-23.3901
An15_EFIR	299250	521250	590250	0.00230503	-28.1551
An16_EFIR	287250	500250	566250	0.00240375	-28.9034
An17_EFIR	296250	516750	585750	0.00231789	-24.9283
An18_EFIR	273750	479250	542250	0.00249619	-21.9428
Dy01_EFIR	34296.9	59609.4	67578.1	0.0201694	-29.8925
Dy02_EFIR	33828.1	59140.6	66953.1	0.0202412	-23.2189
Dy03_EFIR	34140.6	59453.1	67421.9	0.0201694	-26.741
Dy04_EFIR	34140.6	59453.1	67265.6	0.0202412	-29.5443
Dy05_EFIR	34453.1	59921.9	67890.6	0.020068	-29.6613
Dy06_EFIR	33984.4	59453.1	67421.9	0.020068	-20.2545
Dy07_EFIR	34453.1	60078.1	68046.9	0.0199676	-26.3096
Dy08_EFIR	33828.1	58984.4	66796.9	0.0203445	-26.6048
Dy11_EFIR	34453.1	60078.1	68046.9	0.0199676	-26.3096
Dy12_EFIR	34296.9	59921.9	67890.6	0.0199676	-23.1897
Dy13_EFIR	34296.9	59609.4	67578.1	0.0201694	-29.8925
Dy14_EFIR	34296.9	59921.9	68046.9	0.0198974	-20.435
Dy15_EFIR	33984.4	59453.1	67421.9	0.020068	-20.2545
Dy16_EFIR	34296.9	59921.9	67578.1	0.0201077	-28.6651
Dy17_EFIR	34296.9	59921.9	67734.4	0.0200376	-25.9333
Dy18_EFIR	33984.4	59453.1	67265.6	0.020139	-23.0111

File: 20190610_1835_Conf_DTAS.xlsx

Start: 17:57 ?

Stop:18:15

Comment: We put Co and Cs on top of each other below AIDA in the center of the DTAS with the help of the plastic
ruler. 

Root: 20190610_1815_60Co_137Cs_AIDA_in.root

To calibrate use the 

[dacq@IFICdaq DRikenPreparation]$ root -l
root [0] .L calibrateEFIR_new.cxx
root [3] calibrateEFIR("20190610_1815_60Co_137Cs_AIDA_in.root")
An01_EFIR	306750	536250	606750
An02_EFIR	281250	489750	554250
An03_EFIR	282750	491250	557250
An04_EFIR	263250	458250	518250
An05_EFIR	270750	471750	534750
An06_EFIR	308250	537750	609750
An07_EFIR	290250	506250	572250
An08_EFIR	284250	495750	560250
An11_EFIR	365250	636750	722250
An12_EFIR	263250	459750	521250
An13_EFIR	321750	560250	635250
An14_EFIR	327750	572250	648750
An15_EFIR	300750	522750	591750
An16_EFIR	287250	500250	567750
An17_EFIR	296250	516750	585750
An18_EFIR	273750	479250	542250
Dy01_EFIR	34296.9	59765.6	67578.1
Dy02_EFIR	33828.1	59140.6	66953.1
Dy03_EFIR	34140.6	59296.9	67109.4
Dy04_EFIR	34140.6	59453.1	67265.6
Dy05_EFIR	34453.1	59921.9	67890.6
Dy06_EFIR	34140.6	59453.1	67421.9
Dy07_EFIR	34453.1	60078.1	68046.9
Dy08_EFIR	33828.1	59140.6	66796.9
Dy11_EFIR	34453.1	60078.1	68203.1
Dy12_EFIR	34296.9	59765.6	67890.6
Dy13_EFIR	34296.9	59765.6	67578.1
Dy14_EFIR	34296.9	59921.9	67890.6
Dy15_EFIR	34140.6	59765.6	67578.1
Dy16_EFIR	34296.9	59765.6	67578.1
Dy17_EFIR	34296.9	59921.9	67734.4
Dy18_EFIR	33984.4	59453.1	67265.6
An01_EFIR	306750	536250	606750	0.00223435	-23.9647
An02_EFIR	281250	489750	554250	0.00245634	-29.3018
An03_EFIR	282750	491250	557250	0.00244617	-29.701
An04_EFIR	263250	458250	518250	0.0026289	-30.6075
An05_EFIR	270750	471750	534750	0.00254201	-26.4752
An06_EFIR	308250	537750	609750	0.00222596	-24.3613
An07_EFIR	290250	506250	572250	0.00237623	-28.3674
An08_EFIR	284250	495750	560250	0.00242761	-28.7476
An11_EFIR	365250	636750	722250	0.00188032	-24.9273
An12_EFIR	263250	459750	521250	0.00260091	-22.9409
An13_EFIR	321750	560250	635250	0.00214105	-27.0487
An14_EFIR	327750	572250	648750	0.00209042	-23.3901
An15_EFIR	300750	522750	591750	0.00230503	-31.6127
An16_EFIR	287250	500250	567750	0.002394	-25.7022
An17_EFIR	296250	516750	585750	0.00231789	-24.9283
An18_EFIR	273750	479250	542250	0.00249619	-21.9428
Dy01_EFIR	34296.9	59765.6	67578.1	0.020139	-29.3045
Dy02_EFIR	33828.1	59140.6	66953.1	0.0202412	-23.2189
Dy03_EFIR	34140.6	59296.9	67109.4	0.0203445	-32.9624
Dy04_EFIR	34140.6	59453.1	67265.6	0.0202412	-29.5443
Dy05_EFIR	34453.1	59921.9	67890.6	0.020068	-29.6613
Dy06_EFIR	34140.6	59453.1	67421.9	0.0201694	-26.741
Dy07_EFIR	34453.1	60078.1	68046.9	0.0199676	-26.3096
Dy08_EFIR	33828.1	59140.6	66796.9	0.020313	-25.9882
Dy11_EFIR	34453.1	60078.1	68203.1	0.0198974	-23.544
Dy12_EFIR	34296.9	59765.6	67890.6	0.0199969	-23.7359
Dy13_EFIR	34296.9	59765.6	67578.1	0.020139	-29.3045
Dy14_EFIR	34296.9	59921.9	67890.6	0.0199676	-23.1897
Dy15_EFIR	34140.6	59765.6	67578.1	0.0200376	-22.8024
Dy16_EFIR	34296.9	59765.6	67578.1	0.020139	-29.3045
Dy17_EFIR	34296.9	59921.9	67734.4	0.0200376	-25.9333
Dy18_EFIR	33984.4	59453.1	67265.6	0.020139	-23.0111

We have corrected small gain changes by changing the HV of detectors. Attached are the new values

File: 20190610_1602_background_AIDA_in.root

SyncPulse: 61777
DTPulser: 61277
LP_out: 61289 (!!!?)
EDy01: 61247
EDy13: 61226

LP_out counts more now

File:  20190610_1145_Conf_DTAS.xlsx

Several changes and corrections
Naming: V2A8C1 -> Aux01, ...

New or corrected
Aux13 -> LP_out (puse out of light pulser)
Aux15 -> DTpulser (Out of GSI clock triggering LP)
Aux16 -> SyncPulser (Out of GSI clock send out for synchronization with AIDA & BigRIPS)

Ranges changed
Aux09, ERefAn

We observed that LP_out was counting less than the other two
so we tried to check DACQ parameters. We basically change nothing
Only activated "CFD time"
Note that pulse out is a very strange signal:
Negative(?),-400mV offset, 200mV high
In the DACQ is treated as positive signal with a large negative offset.

Start:~14:00 (June 9)
Stop:10:30

File: 201906101030_background_AIDA_in.root

There is an effect if the pulser is at higher frequency in the low energy part of the anodes (apart from the funny situation that the scaler shows an increase from 1.7 Khz to 8.5 kHz and the dynodes rate remain with the same rate)

The effect can be seen in the spectrum of the anodes. See screenshots in the attachment. First attachment (pulser at 10 Hz, second attachment pulser at 100 Hz)

The cable of detector 8 was changed (long cable) to reduce the noise. The cable (long) of the reference detector was also changed.

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).

Files at mars /home/briken/190607AidaTasTest137Cs
For this experiment TAS Signal is stored 

Files at mars /home/briken/190607AidaTasTest60Co

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

Start: 16:50

Stop: 17:28

Root: 201906071728_60Co_AIDA_in.root

Comment: 60Co source on top of AIDA (red box, key 3). It is positioned on a plastic ruler in the center of the DTAS.

File Number Aida: R18 (_0 should not be used, reset of the time stamp was done during this file). R18_1 started at 16:57, last file R18_4

File Number DTAS: 245,247

201906071650_60Co_AIDA_245.dlt,... 201906071650_60Co_AIDA_247.dlt

After checking the shifts in gain, it seems that for most of the detectors the dynode and anode signal moved in the same direction with the exception of detector 13 (dynode and anode do not move

equally, so probably there is a cable problem here, probably in the Dynode 13 or preamp problem)

Edit 13/06/19 Oscar Hall

The low energy channels of AIDA have been gain matched. Attached is the energy plot of the x and y side strops in AIDA.

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)

Setup: On 17th-May (11:18 - 11:38), AIDA was inside DTAS. Measurement of 60Co source.

Files:
AIDA: R6_{3..7}.gz
1,2G may 17 11:21 R6_3.gz
982M may 17 11:25 R6_4.gz
926M may 17 11:28 R6_5.gz
1,1G may 17 11:32 R6_6.gz
1,2G may 17 11:38 R6_7.gz
 20M may 17 11:39 R6_8.gz

DTAS: AidaMergerTest_2_0{23..29}.dlt
955M may 17 11:21 AidaMergerTest_2_023.dlt
955M may 17 11:24 AidaMergerTest_2_024.dlt
956M may 17 11:27 AidaMergerTest_2_025.dlt
956M may 17 11:31 AidaMergerTest_2_026.dlt
955M may 17 11:33 AidaMergerTest_2_027.dlt
956M may 17 11:36 AidaMergerTest_2_028.dlt
732M may 17 11:38 AidaMergerTest_2_029.dlt


Working dir: ~/Corrigan

Test 1: merge R6_5 with AidaMergerTest_2_025.dlt

New config file: 20190606_Conf.xlsx

Changed with respect to the earlier file (20190605_Conf.xlsx):

-The threshold of the Reference detector was changed from 2800 to 3500.
-A new gated histogram was added: ECryA gated by F11PLR in the energy range of the implanted ions, named as
EcryAGF11

Issue in AIDA PL (see screenshot). A lot of small signals; top, samples, bottom output of EFIR (picture taken
when integration = 50 samples; value in configuration = 20)

Start: 14:25

Stop: 14:39 (partial, no beam, not erased), 14:58 (partial, no beam, not erased), 15:16  (partial, no beam, not erased),

Stop: 14:39 (next day, a new spectrum was added, AIDAGF11)

Root: 201906041439_background_AIDA_in.root, 201906041458_background_AIDA_in.root, 201906041516_background_AIDA_in.root

Comment: They enter to change the F3, F7 plastics. So the beam was stopped.

Beam from approximately 15:25, syncronization pulse was sent. Rate at F7 9.4 kHz

With the help of Tom the additional lead pieces were put. So now the hole in the lead shielding matches the hole in the polyethylene shielding.

The hole is 11 cm x 11 cm approximately

Start: 21:00

Stop: 14:24 (next day)

Root: 201906041423_background_AIDA_in.root

Comments: Beam on, rate at F7 8.9 kHz, the beam was stopped before 14:00 to change the plastic detectors at F3, F7, they are burning them

The E range of the AIDA plastic for the construction of the TAIDA plastic spectrum has been changed. Also the range of the TAC_AIDAPL_CryA has been changed.

The estimated range of AIDA was based on the file 201906011624_background_AIDA_in.root, which was with no beam. But I am not sure is the calibration of 

AIDAPL is fine.

Start:11:36

Stop: 20:47

Root: 2019060312047_background_AIDA_in.root

102Sn beam, empty target run, Rate at F7 9 kHz

Start: 09:45

Stop (partial save): 09:55, 10:00, 10:14,10:29,10:37,10:46

Root: 201906030955_background_AIDA_in.root (no beam, not erased), 201906031000_background_AIDA_in.root (no beam, not erased),

201906031014_background_AIDA_in.root(no beam, not erased), 201906031029_background_AIDA_in.root(no beam, not erased),

201906031037_background_AIDA_in.root(no beam, not erased),201906031046_background_AIDA_in.root(no beam, not erased)

201906031135_background_AIDA_in.root (with beam at the end)

At 10:43 or so, a Synch pulse was sent

Intensity of the beam has been increased. There is a clear increase of the background. Rates 3.2 kHz (dynodes), 3.3 (anodes).

9 kHz at F11 plastic, 9 kHz at F7

Start: 20:32

Stop: 09;44

Root: 201906030944_background_AIDA_in.root

Comment: beam until 09;00

Start: 19:24

Stop: 20:27

Root: 201906022028_background_AIDA_in.root

Lmd:201906021924_background_AIDA_beam_on_234.dlt ..201906021924_background_AIDA_beam_on_237.dlt

Comments:  For a short period lmd file will be collected as well, to have correlations in case it is needed. Rate at F7 4 kHz

Start: 22:32

Stop: 19:18 (next day)

Comments: According to Tom, the number of ligth particles in AIDA is small

Root:201906021918_background_AIDA_in.root

Start: 18:05

Stop: 22:27

Comments: Rate at F7: 3,3 kHz, rate at F11 (according to the in-beam team approx. 2.4 kHz)

Root: 201906012227_background_AIDA_in.root

In the graph: F11PL R and L, below Aida pl, below TCryA

Start: 16:26

Stop: 17:20 (until then no beam),

Root1: 201906011720_background_AIDA_in.root (no beam, saved 17:20), nor erased

Root2: 201906011729_background_AIDA_in.root (no beam, saved 17:29), nor erased

Root3:201906011741_background_AIDA_in.root (no beam, saved 17:41), nor erased

Root4: 201906011800_background_AIDA_in.root (with beam at the end, saved 18:00), not erased

Comment: At the begining there was no beam, to see the difference. The lead bricks blocking the way to AIDA has been removed as well as the

polyethylene blocks. The lead wall after F11 plastic remains, and of course the lead shielding and the polyethylene shielding before the DTAS is not removed.

Only the blocks that were inside the holes were removed.

Beam arrived around 17:47, intensity at F7 is 3.3 kHz, at F11 of the order of 2.4 kHz, at Aida plastic of the order of 2 kHz after substracting. The beam is centered at 102Sn, but there are a lot of other staff comming through

the noise level.

The increase in the counting rate of the NaI is very small.

Rates with NO BEAM: Dynodes 1.6 kHz, Anodes 1.9 kHz

Rates with BEAM: Dynodes 1.7 kHz, Anodes 1.9 kHz

File with guaranted no beam saved at 17:20 (201906011720_background_AIDA_in.root)

Another one saved at 17:29 (201906011729_background_AIDA_in.root), no beam also, still waiting, similarly saved at 17:41

Attachment 7 shows the rates of TF11PL (black), TCryA (blue), and TAIDAPL (the other color ?). it shows the "noise" level of the AIDA PL, and the increase in the counting

rate of the crystals.

Start: approximate 15:54

Stop: 16:23

Root: 201906011624_background_AIDA_in.root

Comment: No beam. AIDA in place

Start: 22:29

Stop: 15:44 (next day)

Root: 201906011544_background_AIDA_in.root

Comments:

A new config file provided by Jose and Alvaro is loaded

cp 20190531_Conf_JLTAT.xlsx 20190531_Conf_2.xlsx

Comments: I have modified it afterwards to have TAIDAPL, the threshold in E was too high. The TAC_F11R_CryA was also modified. It is shifted in time and cut as it was.

It remains cut.

Short root file is attached as example

---...---...---...---...---...---...---...---...---...---...---...---...---...---...---...---...---...---...---

*Update*: some of the histograms saved from DACQ online are duplicated (same name, but different cycles: ";1" and ";2"), and the second copy is empty. When you open the ROOT file and write the name of the histogram, the last copy ("cycle") is called, so the empty histogram is displayed.

$ root -l 201905312230_background_AIDA_in.root
root [0]
Attaching file 201905312230_background_AIDA_in.root as _file0...
(TFile *) 0x238ac70
root [1] ESumA->Draw() //empty!

So, there are two options: delete the second copy of the histograms, or create a newer copy of the filled histograms. In order to perform the second option, please write this line,

$ root -l 201905312230_background_AIDA_in.root
root [0]
Attaching file 201905312230_background_AIDA_in.root as _file0...
(TFile *) 0x238ac70
root [1]  for (auto&& keyAsObj : *(_file0->GetListOfKeys())){auto key = (TKey*) keyAsObj; if( 1 == key->GetCycle())_file0->Get(Form("%s;%d",key->GetName(),1))->Clone(Form("%s;%d",key->GetName(),3));  }

root [2] ESumA->Draw() //copy of ESumA;1!

The changes will not persist unless the file is opened with "update" mode and the changes are saved at the end.

Alvaro.

Start: 17:49

Stop: 22:11

Root: 201905312211_background_AIDA_in.root

Comments:

Start: 15:04

Stop: partial (17:43), 201905311743_background_AIDA_in.root (file corrupt again), system will be restarted

Root:

Comment: Figure shows the rate of F11PLR (black), F11PLL (lighter color, ??) and AIDAPL (blue). There are different counting rates in left and right of F11 plastic

T spectra for AIDAPL and F11PLL and F11PLR are defined from now on. The ancilliary card was not saving the CFD values for all channels.

It was modified in order to have those spectra. A new configuration file will be saved. See in the attachment

Start: 10:42

Stop: 11:49

Root: 201905311149_background_AIDA_in.root

Comments:

Start: 20:09

Stop: 10:17

Root:  201905311017_background_AIDA_in.root

Comments: before this measurement  the system was restarted.

LED in EDy16 looks wider

The TACS were recovered. Probably all the files of today (until now) and generated after the configuration file change do not have the calibrated spectra.

Start: 16:57

Stop:

Comments: first part no beam, but later with beam

Root: File not saved

Start: 16:43

Stop: 16:56

Root: 201905301656_background_AIDA_in.root

Comment: no beam, AIDA in

Rates: 1.5 kHz (Dynodes), 1.8 kHz (Anodes)

Start: 15:21

Stop: 16:41

Root: 201905301642_background_AIDA_in.root

Comments: they stopped the beam to put the target in

Again a new test with the beam on. At the begining the beam was off and it can be noticed.

There is a lead wall after F11 plastic and in the polyethilene block there are two lead bricks to block the beam to AIDA.

201905301448_background_AIDA_in.root

201905301457_background_AIDA_in.root (beam was stopped for a short period)

Rates with the beam: 2.2 kHz (Dynodes), 2.3 (anodes)

I will not erase it and continue to collect root files (no lmd for the moment), they are still optimizing things. Rate at F11 should be similar to

the rate at F7 according to Pieter. Rate at F7 plastik  is 5 kHz. The plastik spectra (F11, our plastik) shows some spikes.

There was an small increase in the counting rate of the detectors after the beam was delivered. The rate at
F7 was of the order of 5 kHz. But remember that there is a lead wall protecting the detector. Root file saved. Look at TSumA for example

Root: 201905301442_background_AIDA_in.root

Start: 11:01

Stop: 13:37

Root: 201905301337_background_AIDA_in.root

Comments: Some of the TAC spectra have desapeared with the new configuration file. To be explored.

I have tried with both configuration files that were sent.

The position of the reference detector in the ancilliary card was changed from channel 10 to channel 9. Remember that this is important

in relation to all files saved until now.

The HV of AIDA plastic was changed from 1300 V back to 1000 V.

A new configuration file provided by Alvaro and Jose, with some small changes will be loaded.

cp 20190529_Conf_ATJLT.xlsx 20190530_Conf.xlsx

The new configuration file has been uploaded. Reference detector appears in channel V2A8C9. It was necessary to change the range of the histogram, and to recalibrate it.

With the new configuration parameters the pulser appears at 1360 keV in the calibrated spectra of the reference detector.

The threshold of the Ref detector has also been changed. From 4400 to 2800.

Start: 18:02

Stop: 18:33, partial file (201905291833_background_AIDA_in.root), Stop: 09:53 saved also next day (30/05) 201905300953_background_AIDA_in.root

Comments: AIDA in, Bigrips is doing settings (105Te to my best knowledge). There is a lead wall before our setting. No apparent change in the rate of background

Root: 201905300953_background_AIDA_in.root

New configuration file after a few small changes in thresholds.

AIDA plastic changed.

HV was at 1000 V, it was changed to 1300 V

Coarse gain was changed to x5, Fg remains as it was.

I had only two minutes to enter (it was a rush). Better to verify it again

Latest configuration file from 28 of May

F11 plastic has been connected to our dacq as it was in the earlier BRIKEN setting.

The detector cables were followed and connections checked.

The outputs of the detector (L and R) go through an Ortec TFA 474 with the following settings:

Coarse gain: x4

Fine gain: looks minimal

Integrate (ns): 200

Diff (ns): 100

Non-inv setting

After the TFA, the Right signal is plugged in channel 1 of our card, and an attenuated signal (50 Ohm) is

plugged in channel 3. Similarly the Left signal after the TFA is plugged in channel 2 and the attenuated 

signal is plugged in channel 4.

Parameters of the channels of the dacq have to be checked.

Irradiation of two pieces of aluminium of 80 mm x 40 mm x 10 mm will be performed at the second BigRips dipole.

The pieces were placed with the help of Fukuda and Nishimura san.

Start: 15:50

Stop: 10:09 (next day)

Root: 201905291009_background_AIDA_in.root

Comments: background, Aida in

Start: 14:13

Stop: 15:47

Lmd: Background_AIDA_in_201905281413_231.dlt .. Background_AIDA_in_201905281413_233.dlt

Root: 201905281547_background_AIDA_in.root

Rates: 2.1 kHz (Dyn), 1.8 kHz (Anodes)

Start: 13:43

Stop: 14:05

Comments: The source looks also too strong. Rates: 39 kHz (Dynodes), 40 kHz (anodes).

Source ID: IR052 from the third floor, small plastic rectangular form

Rates:

RefAn: 180 Hz

Dy01: 3.7 kHz

Dy02: 0.4 kHz

Dy11: 0.5 kHz

Dy12: 0.13 KHz

AIDA in. The source is put at the extreme of the source holder, at 16.5 cm from the edge of the detectors. Almost touching AIDA.

Lmd: 133Ba_source_AIDA_in_201905281343_227.dlt ..133Ba_source_AIDA_in_201905281343_230.dlt

Root: 201905281405_133Ba_AIDA_in.root

Again the Reference detector was firing mainly in the noise. Threshold increased to 5000 !!!!

New config file was saved, rate of Ref detector now: aprox. 400 kHz

Start: 21:59

Stop: 13:15 (next day, 28/05)

Rates: 1.9-2.3 (dynodes), 1.8-1.9 kHz (anodes)

Root: 201905281315_background_AIDA_in.root

Comments: Aida inside. No sources around

The preparation directory was moved to /data/DRikenPreparation (from its first place /home/dacq/DRikenPreparation) because the lack of space.

The reference detector was very noisy. The threshold has been changed from 2000 to 3200. We should look at this more carefully.

The position of the fiber was also changed. It moved too close to the Cs peak. Probably it has to do with the flexibility of the plastik screw that fixes it.

Start: 17:13

Stop: 18:03

Rates: 1.8 kHz (Dynodes), 1.8 kHz Anodes

Lmd: Background_AIDA_201905271711_210.dlt ... Background_AIDA_201905271711_226.dlt

Root: 201905271803_background_AIDA_in.root

Comments: AIDA in, in the same conditions as the earlier entry. Some asymetry in the spectra is seen. See EDy05 vs EDy15 and similarly EDy03 vs EDy13

Start: 16:28

Stop: 17:03

Rates: 14.4 kHz (Dinodes), 12.8 kHz (Anodes)

Lmd:  60Co_source_AIDA_201905271627_196.dlt .... 60Co_source_AIDA_201905271627_209.dlt

Root: 201905271703_60Co_AIDA_in.root

Comments: AIDA in, sligthly less deeper than before. It is 17 mm less deeper. So from the other side we measure 17.7 mm to the nose of AIDa.

The source is on top of AIDA with a help of a plastic ruler, that it is lying on top of it. The other extreme of the ruler is attached with tape to the edge

of the frame on the beam side. The source is positioned on top of the detectors 3, and 4, in practical terms in the geometrical center, but on top of 

AIDA. 60Co source from source box (key 3). No sources around, the sources are kept inside BELEN.

EMPTY00    │   0.0 V 1500.0 uA    0.5 V    0.5 uA Off                │00.0000
DET01        │ 599.0 V 1500.0 uA  598.5 V   90.0 uA On                 │00.0001
DET02        │ 548.5 V 1500.0 uA  548.0 V   82.5 uA On                 │00.0002
DET03        │ 530.5 V 1500.0 uA  530.0 V   80.0 uA On                 │00.0003
DET04        │ 697.5 V 1500.0 uA  697.5 V  105.0 uA On                    Admi4
DET05        │ 451.5 V 1500.0 uA  451.0 V   67.5 uA On                       05
DET06        │ 820.0 V 1500.0 uA  820.5 V  123.0 uA On  Status             Ch06
DET07        │ 560.0──────────────560.0 V   84.0 uA On ────────────────┬─0.0007
DET08        │ 486.0 V 1500.0 uA  486.0 V   73.0 uA On                 │00.0008
EMPTY09    │   0.0 V 1500.0 uA    1.0 V    0.5 uA Off                │00.0009
EMPTY10    │   0.0 V 1500.0 uA    0.5 V    0.0 uA Off                │00.0010
EMPTY11    │   0.0 V 1500.0 uA    1.0 V    0.5 uA Off                │00.0011
EMPTY12    │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │00.0000
DET11        │ 579.0 V  300.0 uA  579.5 V   86.5 uA On                 │00.0001
DET12        │ 506.0 V  300.0 uA  506.5 V   76.0 uA On                 │00.0002
DET13        │ 623.5 V  300.0 uA  623.5 V   92.5 uA On                 │00.0003
DET14        │ 649.5 V  300.0 uA  649.5 V   96.5 uA On                 │00.0004
DET15        │ 656.5 V  300.0 uA  656.5 V   97.5 uA On                 │00.0005
DET16        │ 530.5 V  300.0 uA  530.0 V   78.5 uA On                 │00.0006
EMPTY12    │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │02.0000
DET11        │ 578.0 V  300.0 uA  578.0 V   86.5 uA On                 │02.0001
DET12        │505.5  V  300.0 uA  506.0 V   76.0 uA On                 │02.0002
DET13        │ 624.5 V  300.0 uA  624.5 V   92.5 uA On                 │02.0003
DET14        │ 650.0 V  300.0 uA  650.0 V   96.0 uA On                 │02.0004
DET15        │ 657.0 V  300.0 uA  657.0 V   98.0 uA On                 │02.0

DET16        │ 530.5 V  300.0 uA  530.0 V   78.5 uA On                 │00.0006
DET17        │ 462.0 V  300.0 uA  461.5 V   68.0 uA On                 │00.0007
DET18        │ 518.5 V  300.0 uA  518.5 V   77.5 uA On                 │00.0008
EMPTY19    │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │00.0009
EMPTY20    │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │00.0010
REF01        │ 800.0 V  300.0 uA  800.0 V  174.0 uA On                 │00.0011
EMPTY12    │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │02.0000

Nishimura san found the module used for the AIDA plastik in the last BRIKEN run. We put it instead of the TFA. It was kept in the same

setting conditions as in the earlier experiment.

AIDA plastic module configuration (Ortec 671 Amplifier)

Coarse gain: 20

Fine gain: ?

Shaping time (us): 0.5

Type: Gaus

Signal pos

The configuration of the digitizer might need  to be updated (5)

Start: 15:15

Stop: 15:31

Lmd: 137Cs_source_201905271514_187.dlt .. 137Cs_source_201905271514_195.dlt

Root: 201905271531_137Cs.root

Rates: 7.9 kHz (Dynodes), 7.9 kHz (Anodes)

Comments: Aida out, source in the center. As in earlier measurements 5 mm deeper.

Reference detector might require repositioning of the optical fiber. It appears too close to the Cs peak and it is very noisy.

Small alignment corrections were needed, of the order of 0.5-1V.

All detectors were realigned

For the moment there are three channels connected.

Channel 5 is AIDA plastic,

Channel 10 is the anode of the Ref detector

Channel 16 is the pulser.

Start: 14:53 (May 25)

Stop: 14: 37 (May 27)

Root: 201905271437_background.root

Comment: there is small assymetry between one side and the other. Probably it is determined by the closeness of the big wall in the direction of the beam

Start: 11:42

Stop: 14:45

Lmd: Background_201905251141_182.dlt ..Background_201905251141_186.dlt

Root: 201905251445_background.root

Comments: No sources around. All were taken back. Only doubful sources might be there, that I need to ask Nishimura san.

AIDA is out

Start: 10:27

Stop: 11:31

Root: 201905251131_60co.root

Lmd: 60Co_source_201905251027_176.dlt ...60Co_source_201905251027_181.dlt

Comments: possitioned as the measurements of yesterday. 5 mm deeper than earlier.

Red box with the other sources inside BELEN, far away from the DTAS

A few detectors have moved, but for the moment I will not correct it.

Reference detector in channel 10. It is very noisy now. I changed the threshold from 1400 to 1600 but still noisy. It requires further attention

New Config file saved.

Start: 20:32

Stop: 10:05

Lmd: Background_201905242032_111.dlt ...Background_201905242032_114.dlt

removed the rest of the files. Ocupying too much space

Root: Background_201905242032_111.dlt (temporary) to play (until 21;11),

full: 2019052521005_background.root

Comment: all sources were taken back. Check for assymetry.

Start: 18:58

Stop: 20:20

Lmd:  60Co_source_201905241858_095.dlt ...60Co_source_201905241858_106.dlt

Root: 201905242020_60Co.root

Comments: AIDA out. The source is possitioned 5 mm deeper as in the earlier Cs measurement (same position as the earlier entry)

To check asymmetry effects

Start: 17:43

Stop: 18:51

Root: 201905241851_137Cs.root

Lmd:  137Cs_source_201905241744_087.dlt...137Cs_source_201905241744_094.dlt

Comments: AIDA out. The source is positioned 5 mm deeper than before from the holder side (the arm is 5 mm longer).

To check if the assymetry is reduced.

Start: 16:35

Stop: 17:30

Rates: 1.5 kHz (Dynodes), 1.8 kHz (Anodes)

Listmode: Background_201905241635_082.dlt ...Background_201905241635_086.dlt

Root: 201905241730_background.root

The aluminium plate of 3 cm thickness arrived and the lead shielding was dismounted and mounted again. We left a narrower hole in it.

Special thanks to Tom, who helped with the hard physical work.

Some pictures after the background during the nigth. The front and back side looks asymetric. To be checked again with a 137Cs source.

AIDA is in. Root file is saved, after one night.

Root: 201905241444_background_with_Aida.root

Following the instructions of CAEN, the SY2527 is working again. Some pushing, massaging appear to solve the situation

The Ba source of the red box is too strong. We can not use it. I need to identify the other one, which does not appear to be in RIBF.

The counting rate was 74 kHz in the DTAS.

Start: 10:48

Stop: 10:58

Root: 201905231058_137Cs_with_Aida.root

Comment: Aida in, source in the position as in the earlier entries. Just to check if there is any jump. No lmd, only root.

No large displacements. Det Dyn1 seems to have slightly larger statistics. The assymetry of the two sides is clear, as it should be.

Start: 17:46

Stop: 10:14 (next day)

Lmd: Background_AIDA_201905221746_075.dlt ..Background_AIDA_201905221746_081.dlt

Root: 201905231014_background_with_Aida.root

Rates: 1.6 kHz (Dyn), 1.8 kHz (Anodes)

Comments: Background with AIDA in

Individual rates at the end of the measurement (kHz), remember the source is not at the center, so we expect assymetry in the counting rates):

Dy01 0.08                   An01  0.12

Dy02 0.07                  An02  0.09

Dy03 0.08                  An03  0.11

Dy04 0.08                  An04  0.07

Dy05 0.12                   An05  0.11

Dy06 0.11                   An06  0.11

Dy07 0.08                    An07  0.10

Dy08 0.11                  An08  0.08

Dy11 0.09                   An11  0.14*

Dy12 0.08                   An12  0.09

Dy13 0.08                   An13  0.12

Dy14 0.10                   An14  0.11

Dy15  0.11                  An15  0.15

Dy16 0.12                   An16  0.11

Dy17 0.09                   An17  0.14

Dy18 0.09                   An18  0.10

Start: 17:00

Stop: 17:40

Lmd:  Co60_source_AIDA_201905221700_072.dlt ..Co60_source_AIDA_201905221700_074.dlt

Root: 201905221740_60co_with_Aida.root

Rates: 13.2 kHz (Dyn), 12.6 kHz (Anodes)

Comments: 60Co source with AIDA in, red box, CD 395 . The source is not centered. It is positioned (the center of the source) at 14.6 cm

from the beam side external edge of the frame (lower NaI numbers). The holder is touching the nose of AIDA.

The nose of AIDA is 16 cm from the external edge of the frame (down stream). In that position Si # 3 is at the center of the DTAS according to Tom.

We have to be very careful when AIDA is moved in. Some of the AIDA  flat connector cables are touching the connectors of our NaI cables.

Individual rates (kHz), remember the source is not at the center, so we expect assymetry in the counting rates):

Dy01 2.2                    An01  2.27

Dy02 0.88                  An02  0.91

Dy03 2.08                  An03  2.20

Dy04 0.87                  An04  0.86

Dy05 2.10                    An05  2.17

Dy06 0.90                    An06  0.89

Dy07 2.01                    An07  2.13

Dy08 0.93                  An08  0.93

Dy11 0.60                   An11  0.68

Dy12 0.36                   An12  0.33

Dy13 0.57                   An13  0.62

Dy14 0.35                   An14  0.33

Dy15  0.58                  An15  0.65

Dy16 0.35                   An16  0.33

Dy17 0.54                   An17  0.62

Dy18 0.32                  An18  0.31

Start: 15:55

Stop: 16:55

Lmd: Background_AIDA_201905221555_071.dlt

Root: 201905221655_background_with_Aida.root

Rates: 1.7 kHz (Dyn), 1.9 kHz (Anodes)

Comments: Background with AIDA in

Individual rates (kHz), remember the source is not at the center, so we expect assymetry in the counting rates):

Dy01 0.07                    An01  0.12

Dy02 0.07                  An02  0.09

Dy03 0.07                  An03  0.11

Dy04 0.08                  An04  0.07

Dy05 0.11                    An05  0.11

Dy06 0.10                    An06  0.12*

Dy07 0.08                    An07  0.10

Dy08 0.10                  An08  0.08

Dy11 0.08                   An11  0.14

Dy12 0.08                   An12  0.09

Dy13 0.08                   An13  0.12

Dy14 0.10                   An14  0.10

Dy15  0.09                  An15  0.16

Dy16 0.10                   An16  0.10

Dy17 0.09                   An17  0.14

Dy18 0.11                   An18  0.10

Start: 15:15

Stop: 15:50

Lmd:  Cs137_source_AIDA_201905221515_069.dlt ..Cs137_source_AIDA_201905221515_070.dlt

Root: 201905221550_137Cs_with_Aida.root

Rates: 7.5 kHz (Dyn), 7.8 kHz (Anodes)

Comments: 137Cs source with AIDA in, Source CS401, 4763. The source is not centered. It is positioned (the center of the source) at 14.6 cm

from the beam side external edge of the frame (lower NaI numbers). The holder is touching the nose of AIDA.

The nose of AIDA is 16 cm from the external edge of the frame (down stream). In that position Si # 3 is at the center of the DTAS according to Tom.

We have to be very careful when AIDA is moved in. Some of the AIDA  flat connector cables are touching the connectors of our NaI cables.

Individual rates (kHz), remember the source is not at the center, so we expect assymetry in the counting rates):

Dy01 1.1                    An01  1.2

Dy02 0.35                  An02  0.36

Dy03 0.97                  An03  1.0

Dy04 0.34                  An04  0.36

Dy05 1.1                    An05  1.1

Dy06 0.4                    An06  0.41

Dy07 1.0                    An07  1.1

Dy08 0.37                  An08  0.37

Dy11 0.27                   An11  0.33

Dy12 0.15                   An12  0.16 

Dy13 0.25                   An13  0.28

Dy14 0.15                   An14  0.16

Dy15  0.28                  An15  0.33

Dy16 0.15                   An16  0.15

Dy17 0.25                   An17  0.31

Dy18 0.16                   An18  0.15

Start: 14:32

Stop: 14:37

Source: 137Cs

Comments: Detectors show small drifts, of the order of the precision of the HV (we could apply 0.5 V corrections to align some of them, but I will not touch them now)

Dy16 looks quite off in the background measurement, but not with the Cs one !!!.

Calibrated spectra: Dy3 an An3 moved a little in the same direction, An12 looks also a little displaced.

Now I plan to measure some sources with AIDA in. It means that the sources will not be centered. The available distance from the oposite side to

the nose of AIDA is 16 cm.

Start: 20:04

Stop: 14:11

Rates: 1.8 (Dynodes) 2.0 kHz (anodes)

Start: 18:55

Stop: 20:01

Lmd: Background_201905211855_068.dlt

Root:201905212001_background.root

Rates: 1.7 kHz (Dyn), 1.9 kHz (Anodes)

Comment: all measurements of today can be used to characterize the full detector.

Sources were possitioned in the center of the spectrometer, with the piece created at Ific

Start: 17:53

Stop: 18:53

Rates: 1.8 kHz (dynodes),  1.9 kHz (anodes)

Lmd: Background_201905211753_067.dlt

Root:  201905211853_background.root

Comments: We will continue measuring, but only for a while with Listmode

Start: 16:56

Stop: 17:46

Rates: 12.6 kHz (dynodes), 12 kHz (anodes)

Lmd: Eu152_201905211656_064.dlt ... Eu152_201905211656_066.dlt

Root: 201905211746_152Eu.root

Source details: 152Eu, ID: EU401, 272, 1.06x10**4 Bq (2010/03/16), key 9

Comments:

Start: 15:49

Stop: 16:49

Lmd: Background_201905211549_063.dlt

Root: 201905211649_background.root

Rates: 1.7 kHz (dynodes) 1.9 kHz (anodes)

Comment: All measurements have been done with the pulser set to 10 Hz. We should think if this have to be increased

Start: 15:08

Stop: 15:42

Rates: 19 kHz (Dynodes), 16 kHz (anodes)

Lmd: Na22_source_201905211508_059.dlt ...Na22_source_201905211508_062.dlt

Root: 201905211543_22Na.root

Source details: 22Na, ID NA 401, 700, 1.038 x 105 Bq (2010/03/16), key 5,

It appears in the Sunflower home page as 09-7007 with an estimated activity of 8.9 Bq/s today

Comment; seems dynode 4 moved a little up. Most detectors keep a reasonable alignment

When overlay was marked, it did not save the root file. Root attached and tested

This is a short list of the identified useful sources:

60Co, key 3, red box, CD 395, already used

137Cs, key 8, 4753, CS401, activity ???, already used

22Na, key 5, 700, NA401, activity 8.9 kBq/s

152Eu, key 9, 272, EU401, activity 6.6 kBq/s

The activities are according to the Sunflower homepage. It was wrong for the Cs source which is under key 8

Start: 14:11

Stop: 15:01

Lmd: Co60_source_201905211411_055.dlt ...Co60_source_201905211411_058.dlt

Root: 201905211501_60Co.root

Rates: 13.8 kHz (Dynodes), 12.4 kHz (anodes)

Source details: Taken from the red box. No CD395, 1 mm plastic (1.23 g/cm3)

338.4 kBq (1 July 1990). Type ASSET81 to drawing VZ-477/1E

Root file tested and attached

Start: 11:34

Stop: 13:52

Rates: 1.7 kHz (Dynodes) 2.0 kHz (Anodes)

Root: 201905211352_background.root

Lmd: Background_201905211134_054.dlt

After a fantastic shower, since it is raining cats and dogs ....

Start: 10:25

Stop: 11:26

lmd: Cs137_source_201905211025_052.dl ...Cs137_source_201905211025_053.dlt

root: 201905211126_137Cs.root

Rates: 8.0 kHz (Dynodes), 8.1 kHz (Anodes)

Comment: detector  3  HV was increased by 1 V ( from 529 to 530 V). Used source CS401, 4763 as in earlier measurements.

The red box Cs source is too strong. We had 150 kHz  in the cards.

Details of the source:137Cs, 8.23x 10**3 Bq at 2010/03/16, ID: CS401, 4763

Root file attached, and tested

Start: 20:30

Stop: 09:54

Lmd: Background_201905202030_046.dlt ...Background_201905202030_051.dlt

Root: 201905210954_background.root

Root and Conf file attached

Start: 18:06

Stop: 20:20

Rates: 14 kHz (Dynodes) 12.7 kHz (anodes)

Lmd: Co60_source_201905201806_037.dlt ...Co60_source_201905201806_045.dlt

Root:  201905202020_60Co.root

Dynode 08 threshold was changed from 675 to 790. Now the rate in this detector is fine.

The global rates for the cards (dynodes and anodes) are similar.

Start: 16:25

Stop: 17:25

Background in the same conditions as before (right after the Co measurement)

Listmode: Background_201905201614_035.dlt .... Background_201905201614_036.dlt

Root file:  201905201725_background.root

Rates:

Dynodes: 8.5 kHz

Anodes: 1.8 kHz

Anod1: 120 Hz

Anod15: 173 Hz

Dynod1: 80 Hz

Dynod 15: 166 Hz

Pulser set to 10 Hz

Rate of Dynode 5, 15, 17  seem a little higher than the others. The same for Anode 11, 15, 17

Not clear why the Dynodes rate is so high compared with the anodes. There is not such a big

difference in rate of the individual detectors.  

(Dynodes and Anodes rates are taken from the Python script written by Jorge, that correspond to the full card)

Later it become evident that probably we need to increase  the threshold of detector 8 again (Dy08).

Before it was not like that, but now seems to be triggering in the noise.

Start: 15:10

Stop: 16:08

Positioned in the center, with the source holder.

List mode files: Co60_source_201905201510_030.dlt ... Co60_source_201905201510_034.dlt

Root file: 201905201608_60Co.root

Source: 60Co, red box, source number: CD395. 1 mm plastic (density 1.23 g/cm3)

Rates:

Dynodes: 20.5 kHz

Anodes: 12.5 kHz

A file with Co and Cs was collected for 10 min

201905201444_137Cs60Co_align.root

after a minimal correction of the voltages (mentioned in the earlier entry). After this a new calibration was performed.

Rates per detector of the order of 1.7 kHz, Ref det rate 63 Hz, with the pulser set to 10 Hz

Now a  check on the other available sources will be performed.

Until now the used Co source was CO401(2530) , which is rather strong (corresponds to key 6)

and the Cs source was CS401 (4763) (key 8). This Cs is fine.

Now the sources on the red box (color ?) will be explored.

Configuration file: 20190520_Conf.xlsx

Only a very small correction was needed (at the level of 0.5 V) for the raw spectra of det 6,12,13,17 (raw Dynodes)

New voltages

DET01        │ 599.0 V 1500.0 uA  598.5 V   89.5 uA On                 │00.0001
DET02        │ 548.5 V 1500.0 uA  548.0 V   82.5 uA On                 │00.0002
DET03        │ 529.0 V 1500.0 uA  529.0 V   79.5 uA On                 │00.0003
DET04        │ 699.0 V 1500.0 uA  698.5 V  105.0 uA On                 │00.0004
DET05        │ 452.0 V 1500.0 uA  451.5 V   67.5 uA On                 │00.0005
DET06        │ 820.5 V 1500.0 uA  821.0 V  123.0 uA On                 │00.0006
DET07        │ 559.0 V 1500.0 uA  559.0 V   83.0 uA On                 │00.0007
DET08        │ 486.0 V 1500.0 uA  486.0 V   73.0 uA On                 │00.0008
EMPTY09      │   0.0 V 1500.0 uA    1.0 V    7.5 uA Off                │00.0009
EMPTY10      │   0.0 V 1500.0 uA    0.5 V    0.0 uA Off                │00.0010
EMPTY11      │   0.0 V 1500.0 uA    1.0 V    0.5 uA Off                │00.0011
EMPTY12      │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │02.0000
DET11        │ 578.0 V  300.0 uA  578.0 V   86.5 uA On                 │02.0001
DET12        │505.5  V  300.0 uA  506.0 V   76.0 uA On                 │02.0002
DET13        │ 624.5 V  300.0 uA  624.5 V   92.5 uA On                 │02.0003
DET14        │ 650.0 V  300.0 uA  650.0 V   96.0 uA On                 │02.0004
DET15        │ 657.0 V  300.0 uA  657.0 V   98.0 uA On                 │02.0005
DET16        │ 529.5 V  300.0 uA  529.0 V   78.5 uA On                 │00.0006
DET17        │ 462.5 V  300.0 uA  462.0 V   68.0 uA On                 │00.0007
DET18        │ 518.0 V  300.0 uA  518.0 V   77.5 uA On                 │00.0008
EMPTY19      │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │00.0009
EMPTY20      │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │00.0010
REF01        │ 800.0 V 1500.0 uA  800.0 V  174.0 uA On                 │00.0011
EMPTY12      │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │02.0000

Short file with the strong Co source and Cs source. To test stability
Start:11:32

Stop: 14:04

Root file: 201905201404_137Cs60Co_calib.root

Rates; 53 kHz (Dynodes), 47 kHz (anodes) So thresholds should be checked

Anode 12 (calibrated) has a large jump, because the cable in the digitizer was not fully plugged.

We need to recalibrate them. The alignment was done originally with Dynodes.

We have been running with Co and Cs for the weekend to check the overall stability.

Seems that the detectors did not move too much. Please note that the Ref detector was plugged incorrectly in channel 8

instead of channel 10 of the ancilliary card.  A new run will be done to include the reference detector.

It looks that the calibration might be sligthly shifted for detectors 12, 13,17 (Dynodes)

Only PM3 showed an small jump. It seems that it has moved. Even after changing the HV cable. We will pay attention to it in the next days.

The others seem stable.

File after the night with 137Cs and 60C

201905180939_137Cs60Co_calib.root

Det 3 moved, both Anode and Dynode. So we have changed the HV cable to test if there are no more jumps. We used cable 9 and it was not

relabeled. The HV of the detector was corrected. It was changed to 527.5 V

Start: 20:05

Stop: 09:44

Background rate 2.9 kHz (Dynodes), 2.3 (Anodes)  (Threshold of detector 13 was increased)

Files: Background_20190515_006.dlt ...  _014.dlt

Root file: 201905160944_bckg_overnight.root (attached)

Pulser self-triggered at 100Hz

137Cs source in the center of the DTAS, with the IFIC holder

list mode files: Cs137_Source_20190515_000.dlt to Cs137_Source_20190515_005.dlt

Root file: 201905151942_137Cs.root

For JL to play...

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%	***

EMPTY00      │0.0    V 1500.0 uA    0.5 V    0.5 uA Off                │00.0000
DET01        │ 597.0 V 1500.0 uA  596.5 V   89.5 uA On                 │00.0001
DET02        │ 548.5 V 1500.0 uA  548.0 V   82.5 uA On                 │00.0002
DET03        │ 526.0 V 1500.0 uA  526.0 V   79.0 uA On                 │00.0003
DET04        │ 697.0 V 1500.0 uA  696.5 V  105.0 uA On                 │00.0004
DET05        │ 449.5 V 1500.0 uA  449.0 V   67.0 uA On                 │00.0005
DET06        │ 820.0 V 1500.0 uA  820.5 V  123.0 uA On                 │00.0006
DET07        │ 558.0 V 1500.0 uA  558.0 V   84.0 uA On                 │00.0007
DET08        │ 486.0 V 1500.0 uA  486.0 V   73.5 uA On                 │00.0008
EMPTY09      │   0.0 V 1500.0 uA    1.0 V    0.5 uA Off                │00.0009
EMPTY10      │   0.0 V 1500.0 uA    0.5 V    0.0 uA Off                │00.0010
EMPTY11      │   0.0 V 1500.0 uA    1.0 V    0.5 uA Off                │00.0011
EMPTY12      │   0.0 V 1500.0 uA    0.0 V    0.0 uA Off                │02.0000
DET11        │ 576.5 V  300.0 uA  576.5 V   86.0 uA On                 │02.0001
DET12        │ 505.0 V  300.0 uA  505.5 V   75.5 uA On                 │02.0002
DET13        │ 620.0 V  300.0 uA  620.0 V   92.0 uA On                 │02.0003
DET14        │ 650.0 V  300.0 uA  650.0 V   96.5 uA On                 │02.0004
DET15        │ 653.5 V  300.0 uA  653.5 V   97.0 uA On                 │02.0005
DET16        │ 530.0 V  300.0 uA  529.5 V   78.5 uA On                 │02.0006

DET17        │ 462.5 V  300.0 uA  462.0 V   68.0 uA On                 │02.0007
DET18        │ 518.0 V  300.0 uA  518.0 V   77.5 uA On                 │02.0008
EMPTY19      │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │02.0009
EMPTY20      │   0.0 V  300.0 uA    0.0 V    0.0 uA Off                │02.0010
REF01        │800.0  V  300.0 uA  800.0 V  174.0 uA On                 │02.0011

Signal cables (long cables, from preamp to digitizer) of channels 13 and 16 were changed. For the moment they have not been relabelled.

We assumed that it was not a HV supply or cable problem, since the anods were aligned and only the dynodes moved.

After changing the cables we realigned the dynodes and recalibrated all signals. Screen shots are attached.

File (root file) with the two sources (Co and Cs) saved as 201905151432_137Cs60Co.root

Configuration file: 20190515_Conf.xlsx

Rate with two sources: 52 kHz (Dynodes), 47 kHz (Anodes)

Synchronization with AIDA is working, see attached document to proceed.