w-bosons as a microscope for the observation of quarks and
TRANSCRIPT
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W-Bosons as a Microscope for the
Observation of Quarks and Anti-Quarks Inside
the Proton
7/5/2016 Observing Quarks and Anti-Quarks Inside the Proton 1
M. Grosse Perdekamp
University of Illinois, Urbana Champaign
PHYS 403 – Research Talk
July 6th, 2016
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7/5/2016 Observing Quarks and Anti-Quarks Inside the Proton 2
From Atoms to Quarks
Particle Accelerators as Microscopes
The Weak Nuclear Force as Probe
of Proton Structure
Turning the PHENIX Spectrometer into
a Microscope for Quark and Anti-Quarks
W-Bosons as a Microscope for the
Observation of Quarks and Anti-Quarks
Inside the Proton
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From Atoms to Quarks: What is the Substructure of Matter?
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Asked early: Leukipp and Demokrit (~ 450-400 BC)
atomic hypothesis !
There are small particles, atoms, of which
all matter is made and which cannot be divided
in smaller parts.
Some 2400 years & 80 generations later:
Modern experimental tools may provide
quantitative answers in our lifetime!
Demokrit
PHENIX Experiment at Brookhaven National Lab
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The Atoms of the 20th Century: Quarks and Leptons
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Up- and down-quarks are the
building blocks of all nuclear
matter in the nuclei of atoms.
Electrons make up the
shell of atoms.
Forces:
Electromagnetic Photon
Strong Nuclear Gluon
Weak Nuclear Z0, W+,-
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Synthesis of Atomic Matter fromthe 20th Century Atoms
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atom ~ 10-10 m
nucleus
~ 10-14 m
electron
< 10-18 m
quark
< 10-18 m
Proton/neutron
~ 10-15 m
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The Proton, a Complex System ofQuarks, Anti-Quarks and Gluons
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1 Fermi m = 1 Fm ~ 10-15m
valence quarks: 2 up-, 1 down-quark
gluons, the force carriers of the
strong nuclear force.
“sea-quarks” : quark-anti-quark pairs
that can be formed from a gluon for
a short time and annihilate again.
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Quark and Gluon Momentum Distributions
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ondistributi momentumquark )( xq
proton
quark
p
px
Constituents Particles of the Proton:
quarks = u, d, s and gluons
ondistributi momentumgluon )( xG
Probability to observe a quark q with relative momentum x.
Probability to observe a gluon with relative momentum x.
relativequarkmomentum
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Quark and Gluon Spin Distributions
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ondistributispin quark )( xq
proton
quark
p
px
Constituents Particles of the Proton:
quarks = u, d, s and gluons
ondistributispin gluon )( xG
Probability to observe a quark with relative momentum x contributing tothe proton spin.
Probability to find gluon with relative momentum x contributing tothe proton spin.relative
quarkmomentum
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Decompostion of the Proton Spin: Quark Spin + Gluon Spin + Orbital Angular Monentum
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proton
quark
p
px
Origin of the Proton Spin:
add all quark spin contributions Δq(x) ΔΣ
add all gluon spin contributions ΔG(x) ΔG
zLG 2
1
2
1
Quark SpinOrbital Angular
momentum
Gluon Spin
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Experimental Method: Scattering of High Energy Particles on Target Material Under Study
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source ofα-particles(He-nuclei)
targetAu-foil
Ernest Rutherford: Scattering experiments leadto the discovery of the atomic nucleus, 1911
scintillating screen
α-particles
Observation of α-particles at large angles
J.J. ThomsonAtomic Plum PuddingModel
++
+
+
+
+
--
---
--
+
7 +
-
-
-
--
-
-
E. Rutherforddense, heavy nucleus
Rate[cps]
angle180o
Rutherford
Thomson
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Discovery of Quark Structure in Protons Through Electron-Proton Scattering at SLAC
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Nobel Prize 1990 forJerome Friedman, Henry Kendall and Richard Taylor
1969
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Quark Spin Distributions from the COMPASS Experiment at CERN, Switzerland
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COMPASS Phys.Lett. B693 (2010) 227-235
0.01 0.1 0.01 0.1x x
xΔu(x) xΔd(x)
Δu is positive and contributes about + 0.69 ℏ
Δd is negative and contributes about - 0.33 ℏ
The total quark spin contribution , ΔΣ = 0.3 ℏ
Next steps: o measure gluon spin contributiono probe anti-quark distributions (directly)
COMPASSSpectrometer
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Measurement of Spin-DependentAnti-Quark Distributions in PHENIX at RHIC
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The Relativistic Heavy Ion Collider is located atBrookhaven National Laboratory on Long Island
PHENIX
STAR
RPC-factory
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How Can we ProbeProton Spin Structure at RHIC?
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At ultra-relativistic energies the
proton represents a jet of
quarks and gluons
p +p W +
Use the weak nuclear force (W+,--bosons)to directly probe anti-quarks !
mW=80 mproton
high energy muons!
d
dAW
L
u
uAW
L
Error projectionsfrom computersimulations, thefuture error bandfrom Ws at RHICis red!
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The Experimental Challenge in PHENIX
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Only 1 (useful) W-boson in1 billion p-p collisions
Must operate at 5-10 million p-p collisions per second!
PHENIX has 350,000 readout channels10 MHz corresponds to about 5 TeraByte/second detector data
All raw data are kept for 4 micro sec.after this only selected data can bewritten to tape (0.5 GigaByte/second)
Need to develop new detectors +fast online computers to find highenergy muons from W-bosondecay in less than 4 micro seconds!!
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The W-Trigger Upgrade in PHENIX
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(I) Develop fast processor boards to identify high energy muons in 4 micro seconds.
(II) Develop fast readout electronics forexisting muon tracking chambers
(III) Develop additional fast tracking detectors,RPCs, for timing and background rejection
89 physicists from 18 institutions in the US, Japan, Korea and China:
KEK, Kyoto, RIKEN, Rikkyo, LANL, U. New Mexico, Seoul National University (JSPS funded)
UIUC, RBRC, UC Boulder , ISU, CIAE/PKU, Columbia University, GSU, UC Riverside, Korea University, ACU, Muhlenberg College, Hanyang University(NSF funded)
Construction: September 2005 to January 2012
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The Construction Project
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RPCs in Urbana (NSF)
RPCs in PHENIX (NSF)
FPGA based
level-1 trigger
processors
muTr trigger
electronics(JSPS)
SS 310 absorbers
for background
rejection
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Assembly in the RPC Factory at BNL
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Cosmic RPC test stand
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Installation in the PHENIX Spectrometer
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PHENIX RPC-3 north (diameter ~ 10 m) PHENIX RPC-1 north (~ 3m)
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Incoming Beam Background Collision related BG
Time (2.4 ns/bin)
RPC Performance
Design Goal
Noise rate
IhnJea Choi+ Francesca Giordano
RPC Factory: efficiency & Cluster size RPC3 Hit map
IhnJea Choi
Collision
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Three Years of Data Taking
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Good Accelerator Performance ! Good Detector Performance !
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Spin Symposium Beijing, October 2014,
Francesca Giordano, UIUC for PHENIXDSSV: projected impact of new
2013 STAR and PHENIX data
with projected W-data
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o First Conference result shownby Francesca Giordano at SpinConference in Beijing in October2014.
o Final results will be presentedin Daniel Jumper’s thesis defenseat the end of July
o Pesent final result at Spin 2016at UIUC in September. Submitfor publication!
(first ideas for this project weredeveloped in 2002 …)
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Summary I
A large experimental effort in polarized e-p and p-p is underway to
determine the spin structure of the proton.
In deep inelastic e-p scattering the quark spin contribution has been
found to be 1/3.
W-Production in polarized proton-proton Collisions at RHIC provide
unique sensitivity to the anti-quark spin distributions in the proton.
The PHENIX detector was upgraded successfully for W-physics.
Data taking has been completed successfully and
data analysis has started.
Summary
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December 8th
Polarized pp Program at PHENIX
Ruizhe Yang
Beijing
Beau Meredith
Illinois
Matthias Perdekamp
Germany
Cameron McKinney
Indiana
John Koster
New York
Young Jin Kim
South Korea
Dave Northacker
Illinois
John Blackburn
Illinois
UIUC Group Working the PHENIX W-Trigger and Data Analysis
Anselm Vossen
Germany
Scott Wolin
Illinois
Emily Zarndt
IllinoisFrancesca Giordano
Italy
Martin Leitgab
Austria
Daniel Jumper
Texas
Pedro
Montuenga
Venezuela
JhnJea Choi
South Korea
NASA
Northrup
Grumman
Amazon Korean Institute for
Fundamental Physics
Goldman Sachs
Indiana U. Sanger Institute
Cambridge
Indiana U.
Epic.
Citadel.