Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy...
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![Page 1: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/1.jpg)
Centrality measurement andthe centrality dependence of dNcharged/d at mid-rapidity
Judith Katzy (MIT)
for
the PHOBOS collaboration
![Page 2: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/2.jpg)
ARGONNE NATIONAL LABORATORY
Birger Back, Nigel George, Alan Wuosmaa
BROOKHAVEN NATIONAL LABORATORY
Mark Baker, Donald Barton, Alan Carroll, Stephen Gushue, George Heintzelman, Robert Pak, Louis Remsberg, Peter Steinberg, Andrei Sukhanov
INSTITUTE OF NUCLEAR PHYSICS, KRAKOW
Andrzej Budzanowski, Roman Holynski, Wojtek Kucewicz, Jerzy Michalowski, Andrzej Olszewski, Pawel Sawicki , Marek Stodulski, Adam Trzupek, Barbara Wosiek, Krzysztof Wozniak
MASSACHUSETTS INSTITUTE OF TECHNOLOGY
Wit Busza* , Patrick Decowski, Kristjan Gulbrandsen, Conor Henderson, Jay Kane , Judith Katzy, Piotr Kulinich, Johannes Muelmenstaedt, Heinz Pernegger, Corey Reed, Christof Roland, Gunther Roland, Leslie Rosenberg, Pradeep Sarin, Stephen Steadman, George Stephans, Gerrit van Nieuwenhuizen, Carla Vale, Robin Verdier,
Bernard Wadsworth, Bolek Wyslouch
NATIONAL CENTRAL UNIVERSITY, TAIWAN
Willis Lin, JawLuen Tang
UNIVERSITY OF ROCHESTER
Erik Johnson, Josh Hamblen, Nazim Khan, Steven Manly, Robert Pak, Inkyu Park, Wojtech Skulski, R. Teng, Frank Wolfs
UNIVERSITY OF ILLINOIS AT CHICAGO
Russell Betts, Clive Halliwell, David Hofman, Burt Holzman, Don McLeod, Rachid Nouicer, Michael Reuter
UNIVERSITY OF MARYLAND
Richard Bindel, Edmundo Garcia-Solis, Alice Mignerey
* spokesperson
The PHOBOS Collaboration
![Page 3: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/3.jpg)
Global characterization of the Au-Au collision
Nuclear geometry • Determination of impact parameter• Determination of number of participants measurement of produced particles and spectator matter
Energy density• Formation of entropy• Process of particle production measurement of particle density as a function of centrality
![Page 4: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/4.jpg)
The PHOBOS Detector
Paddle Trigger Counters
Spectrometer
Vertex Detector
![Page 5: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/5.jpg)
Trigger & Event Selection
PN>0 t<10ns PP>0
<-2.5mrad>6
Offline analysis cuts: tzdcn, tzdcp
background suppression
tpaddle < 4ns cm z < 60cm
register 97% of cross section
AuAuZDC N ZDC P
<-3 <3
<2.5mrad<-6
collisionstN
tP
single beam
background
ZDC time
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Collision Geometry
<2.5mrad<-6
Npart = A - Nn* 1.67
Participants
ZDC
ZDCb
B
B
Spectators
2 independent methodswith different systematic uncertainties
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Determination of Centrality
In average both methods yield the same centrality bin
No systematic variation between methods
![Page 8: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/8.jpg)
Determination of Npart
Fragmentationpt broadeningdetector resolution
Hadronic crosssectionvariation of event shapedetector resolution
Npart
•Glauber implementation•Parametrization of nucl. density (Wood-Saxon)•Cross section measurement
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Result of Npart determination
Npart
(Npart)Total systematic error on Npart
Variation of Glauber implementation
• determined the impact parameter and Npart with 2 independent methods to exclude many systematic uncertainties • estimated the influence of the cross section measurement• estimated the influence of the Glauber implementation and the parametrization of the nuclear density
Variation of cross section
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Measurement of the “unbiased” spectrum
Simulation: (2.6 % +/-3) % lost due to trigger acceptance
Confirmation with data: Measurement of relative cross sections loss >10% excluded by comparison of event topologies in ZDCs
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Measurement of cross section ratios
tot = hadron + Coulomb
theoretical predictions: 10.90 = 6.92 + 4.0 barn measurement (trigger): all = paddles + ZDC
hadron/ tottheory: 0.636 +/- 0.032 (Nucl.Instr.Meth.A 417(1998)1)
data: 0.615 +/- 0.061
![Page 12: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/12.jpg)
Mutual Coulomb dissociation measured in ZDC
0.449
1.364
EP
a.u.
EN a.u.
EN a.u.
Background: 4%ZDC inefficiency <1%
1 neutron (Dipole resonance)1n/ 1nX = 0.33 data: 0..31 +/- 0.0461nX/ tot = 0.12 data: 0.13 +/- 0.018
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ZDC Simulation
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Measurement of charged particle density at mid-rapidity
Ndataprim = (Ndata
track - Ndataback) x NMC
prim / (NMCtrack - NMC
back)
z
x
Spectrometer(P.Decowski Poster)
( + 2) 1/2 < 0.015
0 < <1
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Vertex and Tracklet Reconstruction
Vertex reconstruction:Resolution z m x y = m selection for this analysis: -4 cm < z < 12 cm
Tracklet reconstruction:
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Background
2 - 13% combinatorical background
0.5 % background from decaying particles (Hijing) 6.5 % secondaries originating in dead material (Hijing,Geant)
backgroundtracklets
D
primariessecondar.feeddown
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Npart
dN/d
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Result & error estimate• combinatorical background 1%• tracklet reconstruction and event selection 4%
Npart
dN/d5Npart
![Page 19: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/19.jpg)
![Page 20: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/20.jpg)
Comparison with theoretical models
Npart
Agrees with Glauber based model (KN)Agrees with gluon saturation model (KN)Disagrees with HIJING (Glauber, jet quenching, nuclear shadowing)Disagrees with EKRT (gluon saturation model)
Not distinguishable
Npart
![Page 21: Centrality measurement and the centrality dependence of dN charged /d at mid-rapidity Judith Katzy (MIT) for the PHOBOS collaboration.](https://reader030.fdocuments.in/reader030/viewer/2022033106/56649efc5503460f94c0f65c/html5/thumbnails/21.jpg)
Monotonicity
• Proof of monotonicity for signal in paddles and in ZDC• Anti-correlation confirms relation of signals to spectators and participants