Contents Preview The PBC Method - hyperons and K 0 S -mesons production ( + ) spectra
Fully Automatic X Hyperons Tracking in Dense Exposed Nuclear … · 2016. 3. 2. · Initial grid...
Transcript of Fully Automatic X Hyperons Tracking in Dense Exposed Nuclear … · 2016. 3. 2. · Initial grid...
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MYINT KYAW SOED2
Fully Automatic X- Hyperons Tracking in Dense Exposed Nuclear Emulsion
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For information of L-L & X-N in S= -2 system; Double-L hypernuclei and X- hypernuclei are uniquely available sources
Revisit to double- L hypernclear events
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Among double-L hypernuclear events, NAGARA event is uniquelyidentified to be 0.67 0.17 MeV for L-L interaction [Ref: J. K. AHN et al.,
PRC 88 (2013) 014003 ]
In order to understand L-L interaction without nuclear core effect>> L-L interaction in different nuclear species
To do so, E07 experiment will be carried out at J-PARC
Emulsion-Counter hybrid
By following X- in emulsion with assist of SSD data, double -L hypernucleus will be detected
Production of S = -2 in nucleus
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E373 & E07
In order to finish all X- candidates following in a few years and to reduce human-power, automatic X- tracking in nuclear
emulsion plate is developed
Motivation of this work
Ref: Propsal for K1.8 beam line at J-PARC, http ; / / j-parc.jp / researcher /Hadron / en / pac_0606 / pdf / p07-Nakazawa.pdf (2006)
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Computer-aided Microscope System
Camera
X
Y
Z
Emulsion plate
Objective Lens
“Automatic X- tracking in dense exposed nuclear emulsion”
PC
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Flow of Method
1. Track position estimation in emulsion
Track data (angle dx/dz, dy/dz, (x0,y0) from SSD or previous plate)
2. Correction of the track position
4. Emulsion surface detection
3. Plate to plate alignment
5. Track following
#E373 emulsion plates are used to develop tracking system#
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Initial grid mark coordinate After photographic development
By measuring coordinates of 9 grid marks of current emulsion plates after photographic development and they are mapped with initial grid coordinates
Track position estimation in emulsion
(E373 emulsion plate)
Grid marks are printed at 1 cm intervals on emulsion plates (same in E07)
Affine parameters are given and all tracks` positions are estimated by use of this parameters.
Nega film
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X
Y
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Correction of estimated track position10mm
10
mm
Go and search near grid mark
Take coordinate of this grid mark and get affine parameter
Correct estimated track position
One view of 50×microscope lens(125 mm × 130 mm)
Followed track
Grid mark
Accuracy is 17.4 ± 9.2 mm
Track exist within one view 8/21
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Alignment of plate by plate connection with K- beam
matching
For automated system, it is necessary about 1 mm alignment accuracy
Alignment with grid marks :: 17.4 ± 9.2 mm
• Not enough for automated system
• Human assistance is required because many candidate tracks may exist in one view
beam spots
One view of 50× objective lens (125 mm × 130 mm)
# K- beam pattern matching method is performed #9/21
X
Y
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K- beams
Take 7 micrographs on both sides
Gathering beam pattern from microscope image
Plate.No i
Plate.No i+1
Z
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Processed imagesSuperimposed and
Binarized image
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Beam pattern matchingin Plate No. i
In Plate No. i +1
Demonstration of beam pattern matching
Peak of 2D histogram becomes the offset (Dx, Dy)
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X
Y
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0. 82±0.01μm 0. 57±0.01μm
Position accuracy of alignment from 740 image samples
Automatic alignment was successful accuracy is less than 1mm
dX dY
This method is very important for automatic tracking system
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Emulsion surface detection
It is important to distinguish between inside and outside of emulsion layers
ZUpper layer
Down layer
Base
Micrograph outside of emulsion Micrograph inside of emulsion
Charged particle tracks are visible only in emulsion layers
It can be detected automatically by checking contrast of images along the optic Z- axis with the performance ofimage processing
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1 Original image (micrograph)
Binarization5
Contrast enhancement 2
Gaussian filter 3 Background uniformity43 2( - )
Image processing
Inside of emulsion Outside of emulsion
After image processing, the difference between inside and outside of emulsion
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Base
Upper SideDown Side
Threshold 500
Nu
mb
er
of
wh
ite
pix
els
ZUpper layer
Down layer
Base
3mm
50
0 m
m
Accuracy of automatic surface detection is 2.6±2.0mm
Number of white pixels are plotted along Z position
Take micrographs
Image processing Sufficient for a fully automatic
tracking system
Z(mm)
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Track Following
6 mm
8 sheets
Image processing
Superimpose images Threshold banalization
Take 8 micrographs with interval of 6 mm
Upper side
Upper side
Base
Take images slightly shift with estimated angle (tan q)
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Upper side
Down side
Base
Take just one image in each estimated positions
Shift length of dx, dy, dz are calculated to be track range 40 mm
Tracking in Down side is as same process as in Upper side 17/21
2
22
dz
dydx θtan
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1 Acquired image
Track recognition in emulsion layer
Cut track searching range2
Track detection3
Make small mark Match small mark in cut range
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effi
cien
cy
tanq
# Development is ongoing #
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Efficiency of track recognition as track angles (tanq)
Misrecognition >> Compton electron in emulsion
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Video image for automatic X- tracking
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Summary
Thank you
We expect X- stopping events (about 104) in nuclear emulsion from J-PARC E07 experiment
In order to finish X- tracking work in a few year, automatic tracking system is developed
All steps are almost finished with position accuracy in x and y axes: less than 1 mm and emulsion surface detection accuracy : about 2 mm.
Development of track recognition is ongoing
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E07 experiment will be carried out at J-PARC to study S=-2 system with high statistics
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22
40mm
track
dzq
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