transversity from di-hadron correlations...f 1 q (x) q(x) g 1 q(x) t q(x) h 1 q(x) chiral odd,...
TRANSCRIPT
![Page 1: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/1.jpg)
Transversity from Di-Hadron Correlations
Anselm Vossen
Hadrons
Quark
𝐒 Hadrons
RHIC/AGS User’s meeting Spin Workshop 6/12/2012
![Page 2: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/2.jpg)
2
The three leading order, collinear PDFs
Parton Distribution Functions
q(x)
f1q (x)
q(x)
g1q(x)
Tq(x)
h1q(x)
chiral odd, poorly known
Cannot be measured inclusively
Extract from semi-inclusive
measurements
unpolarized PDF quark with momentum x=pquark/pproton in a
nucleon
well known – unpolarized DIS
helicity PDF quark with spin parallel to the nucleon spin in
a longitudinally polarized nucleon
known – polarized DIS
transversity PDF quark with spin parallel to the nucleon spin in
a transversely polarized nucleon
![Page 3: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/3.jpg)
3
Unpolarized Longitudinally Polarized Transversely Polarized
Current Status of Distribution Functions
First extraction from Belle, Hermes data. Still model dependent
Alexei Prokudin, 2010, update of Anselmino et al: hep-ex 0701006
We cannot just scatter off, We have to measure asymmetries which are sensitive to the transerse polarization of the outgoing quark
Not connected to x-sect because probe doesn’t care For quark polarization
![Page 4: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/4.jpg)
• Put In sum rule’s from umberto’s talk?
• How much is kang going to talk about transversity
4
U. D’Alesio CIPANP 2012
![Page 5: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/5.jpg)
Why is so hard to measure?
• Boost suppresses transverse spin vector
• Semi-classic picture: Rotating charge
• Leptonic probe is ‘too fast’ to see transverse spin
• To probe: knock out quark and use effect generated by angular moment conservation
–
5
![Page 6: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/6.jpg)
Artru Model for Collins Fragmentation
π+ picks up L=-1 to
compensate for the
pair S=1 and is emitted
up.
u-quark absorbs
photon/gluon and
flips it’s Spin.
Proton spin
is pointing up!
String breaks and
a dd-pair with spin
1 is inserted.
A simple model to illustrate that spin-orbital angular
momentum coupling can lead to left right asymmetries in spin-dependent fragmentation:
L = -1
In Di-hadron measurements: Can have relative angular momentum Advantage: Collinear framework applicable (Factorization, Evolution of FF) Not necessary to reconstruct pParton from jets in p+p
6
![Page 7: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/7.jpg)
• We can connect observables to first order calculations on the lattice
– First step: Tensor charge gT = 𝒉𝟏 𝒙 𝒅𝒙𝟏
−𝟏, can come from
lattice and experiment – First order calculations need connection to experiment – Parton distributions on the light-cone compare moments
• Why p+p?: High xBj (forward), Q2, test understanding of p+p
Extracting Transversity from Data and the Lattice
7
Chiral odd-cannot be measured inclusively
ACollins
∝∑𝑞𝑒𝑞
2ℎ1𝑞𝑥 ∗ 𝐻1
⊥
∑𝑞𝑒𝑞2𝑞1
𝑞𝑥 𝐷𝑞
ℎ 𝑧
Global Fit with FFs from Belle
Precision measurements further understanding of nucleon: Eg. Gluons,
high and low x behavior for helicity distribution
![Page 8: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/8.jpg)
At p+p collider: increased kinematic reach in xBj
in forward direction
• Kinematic reach of SIDIS data
• Kinematic reach in p+p for single pions at 3<eta<4 (RHIC@200GeV)
pt
PT
xBj
xF
h h
8
![Page 9: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/9.jpg)
The RHIC Polarized Collider
Versatility: • Polarized p+p Sqrt(s) collisions at 62.4 GeV, 200 GeV and 500 GeV Recent Spin Runs: • 2011 500 GeV, longitudinal at Phenix, transverse at STAR ~30 pb^-1 sampled • 2012 200 GeV, Phenix and STAR, transverse ~20 pb^-1 sampled (at STAR: ~x10 statistics)
ANDY/ BRAHMS
STAR
PHENIX
AGS
LINAC BOOSTER
Pol. H- Source
Spin Rotators
(longitudinal polarization)
Siberian Snakes
200 MeV Polarimeter
RHIC pC Polarimeters Absolute Polarimeter (H jet)
AGS pC Polarimeter Strong AGS Snake
Helical Partial Siberian Snake
Spin Rotators
(longitudinal polarization)
Siberian Snakes
E-Lens and Spin Flipper
EBIS
9
See http://www.phy.bnl.gov/cnipol/fills/
![Page 10: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/10.jpg)
Full azimuth spanned with nearly contiguous
electromagnetic calorimetry from -1<h<4
approaching full acceptance detector
PID (Barrel) with dE/dx, in the future: ToF pi/K separation up to 1.9 GeV 10
• Central Region (-1<eta<1) • Identified Pions, eta • Jets
• Endcap (1<eta<2) • Pi0, eta, (some) jets
• FMS (2<eta<4) • Pi0, eta
FMS
![Page 11: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/11.jpg)
11
b
X
1f p
a
X
1hSp,
Using Hadron Pairs:
Interference Fragmentation Function in p-p
c
0 /
H
D0 /
( ) sin( )S R UT S RA
S
R-S
: Angle between polarisation vector and event plane
𝐴𝑈𝑇 ∝ ℎ1 ∙ 𝐻1<
![Page 12: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/12.jpg)
12
Definition of Vectors and Angles
1 2
1 2
1 2
p+p c.m.s. = lab frame
, : momenta of protons
, : momenta of hadrons
( ) / 2
: proton spin orientation
A B
h h
C h h
C h h
B
P P
P P
P P P
R P P
S
1hP
2hP
100 GeVAP
100 GeVBP
CP
BS
pp hhX
1 2hadron plane: ,
scattering plane: ,
h h
C B
P P
P P
: from scattering plane
to hadron plane
R : from polarization vector
to scattering plane
S
2 CR
Bacchetta and Radici, PRD70, 094032 (2004)
![Page 13: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/13.jpg)
13
Transversity from di-Hadron SSA
UTUT
UU
A
Physics asymmetry
IFF + Di-hadron FF
measured in e+e-
Transversity
to be extracted
Hard scattering
cross section
from pQCD
Unpolarized
quark distribution
Known from DIS
![Page 14: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/14.jpg)
14
Results or IFF at (z1x m1) Binning
A. V.. et. al, PRL 107, 072004(2011)
q1
quark-1
spin
electron
positron
q2 quark-2
spin
( )
z2 z1
z1,2 relative pion pair momenta
( )
j
1
![Page 15: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/15.jpg)
Observable in p+p
• Use charged track pairs in the TPC
• Build yield asymmetries in 16 bins of FRS
• Fit with sin(FRS)
• Amplitude/polarization is Asymmetry
15 FRS
AN=𝑁↑
FRS −𝑅∙𝑁↓(FRS )
𝑁↑
FRS +𝑅∙𝑁↓(FRS)
1hP
2hP
100 GeVAP
100 GeVBP
CP
BS
pp hhX
2 CR
![Page 16: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/16.jpg)
PID using dE/dx
• Enhance rSignal
• Single Pion Purity ~ 95%
16
![Page 17: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/17.jpg)
NEW: STAR shows significant Signal!
17
![Page 18: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/18.jpg)
18
![Page 19: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/19.jpg)
Decay Angle Distributions
19
![Page 20: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/20.jpg)
Additional precision data from this years run + increased kinematic reach
+/- +/-
20
![Page 21: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/21.jpg)
Comparison To Phenix Results
• No PID • Lower pT • Lower pseudorapidity • Cone Cut?
21
![Page 22: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/22.jpg)
Summary & Outlook
• First signal of transversity in p+p collisions in single and di-hadron Correlations observed
• p+p: high scale, high xBj
• 2012 Data will allow precision measurement, comparison with SIDIS (e.g. factorization in Collins)
• Future measurements – 0 combinations
– (more) forward measurements
– Additional modulations of cross-section
22
![Page 23: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/23.jpg)
23
Definition of Vectors and Angles
1 2
1 2
1 2
p+p c.m.s. = lab frame
, : momenta of protons
, : momenta of hadrons
( ) / 2
: proton spin orientation
A B
h h
C h h
C h h
B
P P
P P
P P P
R P P
S
1hP
2hP
100 GeVAP
100 GeVBP
CP
BS
pp hhX
1 2hadron plane: ,
scattering plane: ,
h h
C B
P P
P P
: from scattering plane
to hadron plane
R : from polarization vector
to scattering plane
S
2 CR
Bacchetta and Radici, PRD70, 094032 (2004)
![Page 24: Transversity from Di-Hadron Correlations...f 1 q (x) q(x) g 1 q(x) T q(x) h 1 q(x) chiral odd, poorly known Cannot be measured inclusively Extract from semi-inclusive measurements](https://reader035.vdocuments.site/reader035/viewer/2022070923/5fbb1d7c07d88f58a85244cf/html5/thumbnails/24.jpg)
Observable
• Use charged track pairs in the TPC
• Build yield asymmetries in 16 bins of FRS
• Fit with sin(FRS)
• Amplitude/polarization is Asymmetry
24 FRS
AN=𝑁↑
FRS −𝑅∙𝑁↓(FRS )
𝑁↑
FRS +𝑅∙𝑁↓(FRS)