bcm performance study and calibrations for f2/emc spring … · 2020-01-28 · bcm performance...
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BCM Performance Study and Calibrations for F2/EMC Spring 2018 Experiment
F2-EMC Collaboration
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Hall C Collaboration Meeting 28th January , 2020
Debaditya Biswas Hampton University, VA
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data taken by F2
• first each BCM calibration runs was analyzed separately for all the BCMs
• the gain (and offset) was varying from one calibration run to another
Dec 2017 Jan 2018 March 2018 May 2018
BCM run BCM run BCM run SHMS 2757
BCM run
Feb 2018 April 2018
• then combining all the runs together a global calibration was performed
• based on the tension between different data sets it was decided that BCM4A (or BCM4C ) current will be used for the analysis
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BCM4A/BCM4C Current vs Run Number Using the Global Fit Params (gain and offset )
P2 P3 P4 P5 P6P1P1 ≤ 2724
2724 > P2 ≤ 2745
2745 > P3 ≤ 2777
2777 > P4 ≤ 2838
2838 > P5 ≤ 3201
3201 > P6
Total Run region were divided into 6 periods depending on this plot 3
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BCM 4A and BCM 4C mismatch by
~ 2%
BCM4A Wrong
BCM4C Wrong
both BCM 4A & BCM4C wrong
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BCM 4A and BCM 4B
MISMATCH !
BCM4A Wrong
BCM4C Wrong
both BCM 4A & BCM4C wrong
to know which one is correct : need a third current monitor to compare with
with BCM 1 or BCM 2 not working properly , Unser were used as the third current monitor
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UNSER : third current monitor
• to determine which of BCM 4A and BCM 4C is correct , it was needed to compare with a third current monitor
• unfortunately we didn’t have BCM 1 or BCM 2 working well , so we wanted to use Unser as the third current monitor
• for that Unser needed to be calibrated
• BUT not enough calibration runs were there during the run period
• several production runs were selected from whole run period, which could be used as the calibration runs (e.g. Run 2518)
• for each of those runs Unser offset were calculated
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• Fit offset for each current off period within a run
• The Unser offset does not vary much within a run
• Will take an average of Unser offsets within a run
• I did this for several runs
through our experiment
Beam off period
• We know that the Unser offset drifts over time
• As we do not have enough Unser Calibration runs over the whole run period, I found production runs which can be used to get the Unser offset over time
Unser offset per run
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Unser : 4 offset values were determined for 4 different run periods
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Stable Unser Gain : average gain is used for the all the runs
Unser : gain was pretty stable over the whole run period
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• replayed several runs covering the whole run period
• for Unser : offsets per run are used and gain was the average gain
• for BCMs : offset and gain are used from the global fits
• shows that both the BCM4A and BCM4C have problems !!!
BCM / Unser current ratio vs Run No
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BC
M 4
/ U
NSE
RB
CM
4A
/ U
NSE
RB
CM
4A
/ B
CM
4C
Run Number
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Local Calibration using production runs
• for each of the 6 periods, several production runs with more than one off periods were chosen for the local calibration
• Choosing these runs were not an easy task , we were looking for the runs -
• where mcc provides beam with several down time as beam-off periods were needed
• also beam cannot be very steady during the run as we wanted different currents for bcm calibration
• Its is very often possible that we can’t find different current values for a single run and then several runs needed to be joined together
• For Unser off periods extra systematic errors were added due to the noise (fluctuation)
• Unser frequencies were histogramed and standard deviation were used as the extra systematic error
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P2 P3 P4 P5 P6P1
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Local Calibration using production runs
• for each of the 6 periods, several production runs each with more than one beam off periods were chosen for the local calibration
• choosing these runs was not an easy task , had to go through all the production runs and were looking for the runs -
• where mcc provided beam with several down time as beam-off periods were needed
• also beam cannot be very steady during the run as we wanted different currents for BCM calibration
• Its is very often possible that we can’t find different current values for a single run and then several runs needed to be combined together
• for Unser beam off periods and BCM beam on periods extra systematic errors were added due to the noise (fluctuation)
• for the systematic error - frequencies were histogramed and standard deviation were used as an extra error
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Run 2518 (production run) used as one of the calibration runs
Scaler Time (sec)Uns
er O
ff Pe
riod
Fre
q (H
z)
13
% R
esid
ual F
it U
nser
Rat
e (H
z)
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Run 2518 (production run) used as one of the calibration runs to calibrate BCM
BCM
Rat
e (H
z)%
Res
idua
l Fit
Scaler Time (sec)
BCM
ON
Per
iod
Freq
(Hz)
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BCM 4A : Period 1
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I unser = (νon - νoff ) / gain unser
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BCM 4C : Period 1
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BCM4A gain Δgain offset Δoffset
P1 13000.0 111.1 2528 4025
P2 13370.0 310.5 -20940 16290
P3 12930.0 125.1 -48.96 5424
P4 12770 189.8 10210 10120
P5 13210 277 -2481 13070
P6 13150 262.2 -2974 13810
BCM4C gain Δgain offset Δoffset
P1 6182 54.58 1504 1941
P2 6388 153.1 -8236 8047
P3 6222 62.52 499.8 2696
P4 6145 95.02 7451 5054
P5 6435 134.9 -1078 6364
P6 6248 124.5 -765.7 6540
List of Gains and Offsets along with corresponding errors for all periods (Considering the fluctuation around mean as error for the BCM on periods)
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Parameters used from BCM global Fit before
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+/- 0
.5%
of 1
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After local calibration BCM4A and BCM4C agrees within 0.3 - 0.5% Though there are some outlier where difference between
BCM4A and BCM4C is more than 0.5% A normalization uncertainty can be assigned from the fluctuation of the ratio (BCM4a /BCM4C) around 1
Parameters used from BCM local calibration after
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Parameters used from BCM global Fit
before
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log
scale
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Parameters used from BCM local calibration
after
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log
scale
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BCM4A is saturating, so BCM4C should be used for these selected runs These runs were not used in the calibration
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Unser Rate (Hz)
Beware of Saturation Do not include the runs in calibration where BCM is saturating
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Current Error : Gain and Offset errors were propagated to current
Ibcm = (νon - νoff) / gain
(ΔIbcm)2 = (δIbcm / δνoff)2 / (Δνoff)2 + (δIbcm/ δgain)2 / (Δgain)2 + 2 (δIbcm/ δνoff) (δIbcm / δgain) COV{νoff , gain}
(ΔIbcm)2 = (Δνoff / gain)2 + (Ibcm)2 . (Δgain / gain)2 + 2. Ibcm . COV{νoff , gain} / gain2
Percent Error = (ΔIbcm / Ibcm ) x 100.00
Gain & Offset are anti-correlated
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Conclusion • start with a set of BCM parameters analyzing the most recent BCM run
before taking data
• monitor online the BCM current ratio’s while taking data
• as soon as there is any considerable (2% is huge for the precision experiment like F2 !) disagreement between two BCMs try to take more BCM calibration run
• for precision experiments like f2 , ~2% difference in current (using BCM global fit ) between two BCMs is NOT desirable
• so when global fit failed, local BCM calibrations were done with real production runs for all different 6 periods separately
• after local calibration BCM4A and BCM4C agreed within a ~0.5% level for current
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Acknowledgement
Thanks to Eric Christy & Simona Malace
Thanks for your attention !
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Back up Slides
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April 30, 2018 Feb 01, 2018
IBC3H04:bcmctemp_r : temp of bcm1, bcm2, unser IBC3H05:bcmctemp_r : temp of digital receivers (bcm 4a, bam 4b , bam 17)
No correlation between the temperature and the Unser offset jump
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(μA)
Very few production runs below average current of 30 µA or above average current of 70 µA
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