Last modified by sndueste on 2025/02/06 10:58
From version 1.1
edited by sendels
on 2019/08/09 12:46
Change comment: There is no comment for this version
To version 8.1
edited by sndueste
on 2020/06/10 15:23
Change comment: There is no comment for this version

Summary

Details

Page properties
Author
... ... @@ -1,1 +1,1 @@
1 -XWiki.sendels
1 +XWiki.sndueste
Content
... ... @@ -1,53 +1,49 @@
1 -* [[LINK to detailled infos from MSK~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:http://mskwiki/index.php?title=BAM-DAQ_Channels||shape="rect"]]
1 +=== Some basic stuff: ===
2 2  
3 -\\
3 +* The relevant data is the arrival time FLASH.SDIAG/BAM/4DBC3/LOW_CHARGE_ARRIVAL_TIME
4 +* Besides the arrival time from FLASH1 there is also the FLASH2/3 electron arrival time saved. The BAM data is saved for the complete RF pulse. First bunches are from FLASH1 then there is a gap for switching and then there is a second part for FLASH2 (starting at the FLASH2 start time (recorded in DAQ as {{code language="none"}}/FL2/Timing/start time flash2{{/code}}))
5 +* There are LOW and HIGH charge channels. For now the LOW_CHARGE Channel is the relevant one.
6 +* Bigger numbers indicate later arrival time of the electrons
7 +* The arrival time should be within -20 ps and +20 ps - otherwise there might be a problem ...
4 4  
5 -* the relevant data is the Arrivaltime FLASH.SDIAG/BAM/4DBC3/LOW_CHARGE_ARRIVAL_TIME
9 +=== Data structure ===
6 6  
7 -\\
11 +(% style="color: rgb(0,0,0);" %)The details about the functionality and the data structure can be found on the page: (%%)**[[ BAM Data Structure>>doc:SDiagPublic.BAM Data Structure]]**
8 8  
9 -* There are now (since March 2017) LOW and HIGH charge channels. for now the LOW_CHARGE Channel is the relavant one.
10 -
11 11  \\
12 12  
13 -* bigger numbers indicate later arrivaltime of the electrons
15 += General information for the data analysis of pump-probe experiments =
14 14  
15 15  \\
16 16  
17 -* the arrivaltime sould be within -20 ps and +20 ps . otherwise there might be a problem ...
19 +please have a close look to the publication:
18 18  
19 -\\
21 +Evgeny Savelyev, et al,  //Jitter-Correction for IR/UV-XUV Pump-Probe Experiments at the FLASH Free-Electron Laser//,
22 +New J. Phys. **19**, 043009 (2017), [[https:~~/~~/doi.org/10.1088/1367-2630/aa652d>>url:https://doi.org/10.1088/1367-2630/aa652d||shape="rect"]]
20 20  
21 -* There is a BAM status parameter: FLASH.SDIAG/BAM/4DBC3/BAM_STATUS.1 (the 1 indicates FLASH1)
22 -** bit 0 (value: 1) = data is valid,
23 -** bit 1 (value: 2) = at least 1 bunch is present,
24 -** bit 2 (value: 4) = calibration is on,
25 -** bit 3 (value: 8) = internal feedback is on,
26 -** bit 4 (value: 16) = tuning mode is on
24 +describing in detail the usage of BAM, streak camera and delay line data in order to get the actual time axis as reliable as possible.
27 27  
28 28  \\
29 29  
30 -* if DBC3 is not working then also 3DBC2 can be used. there is a linear correlation between BC2 and BC3
28 +Here is a summary of the ideas:
31 31  
32 -(from Marie: der groesste Drift-Beitrag kommt immer aus dem Injektor (also alles zw. Injektorlaser und ACC39) Einfluss von ACC23 ist deutlich kleiner. Im Mittel hat man einen linearen Zusammenhang zw. Ankunftszeit BC2 zu BC3.)
30 +== Streak camera info ==
33 33  
34 -\\
32 +* the streak camera measures the delay between optical (amplified) laser and FEL (dipole radiation). - not in respect to the master clock !
33 +* streak camera ONLY delivers data which is averaged over several 10 seconds. There is NO shot to shot info.
34 +* a larger value of the streak camera delay (typically) indicates that the optical laser comes later than the FEL (or FEL earlier than the laser ...)
35 35  
36 36  \\
37 37  
38 -=== more Info: ===
39 -
40 40  \\
41 41  
42 -* [[talk by Marie (2011)>>attach:FLASH-seminar-2011_BAM_study_results.pdf]]
43 -* contact: Marie Kristin Czwalinna
44 -
45 -\\
46 -
47 -== Streak camera info ==
48 -
49 -\\
50 -
51 -* the streak camera measures the delay between optical (amplified) laser and FEL (dipole radiation). - not in respect to the master clock !
52 -* streak camera ONLY delivers data which is averaged over seveal 10 seconds. there is NO shot to shot info.
53 -* a larger value of the streak camera delay indicates that the optical laser comes later than the FEL (or FEL earlier than the laser ...)
40 +{{info title="Correction of pump-probe delay"}}
41 +* BAM measurement: difference between electrons and timing system
42 +** usually the BAM signal has to be added to the delay ...
43 +** it is the best to test addition/subtraction and check the results on a step function (more/less sharp) - if there is no change of the data with + and - there is anyway something wrong. please contact your local contact for more information / help
44 +* Streak camera: difference between electrons and optical laser
45 +** it is a slow signal and should only be used as a rolling average over multiple minutes
46 +** if you see a drift in the streak camera which you do not see in the BAM it is resulting from the optical laser
47 +** if this (BAM - streak camera signal) is significant e.g. 200 fs over 1 h, it means the drift compensation was probably off and it should be compensated
48 +** addition/subtraction is dependent on the setup and have to be checked
49 +{{/info}}