transversity, collins and sivers effectstheor.jinr.ru/~spin/spin-dubna07/2 4tua/6...
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Transversity, Collins and Sivers Effects fromCOMPASS, HERMES and BELLE Data: New
Global Analysis
Alexei Prokudin
Universita di Alessandria and INFN Sezione di Alessandria
XII Workshop on High Energy Spin Physics
In collaboration with M. Anselmino, M. Boglione, U. D’Alesio,F. Murgia, A. Kotzinian and C.Turk
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 1
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Outline of this talk
1 Introduction
2 Collins effect in SIDIS and e+e− annihilation
The model for Collins FF and transversity
Description of the data & Predictions
3 Sivers effect in SIDIS
The model for the Sivers function
Description of the data & Predictions
4 Conclusions
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
The fundamental distributions of partons inside a nucleon
UnpolarisedDistribution
f1(x) or q(x)
Distribution ofunpolarised partons inan unpolarised nucleon.Well known
HelicityDistribution
g1(x) or ∆q(x)
–
Distribution oflongitudinally polarisedpartons in alongitudinally polarisednucleon.Known
TransversityDistribution
h1(x) or ∆Tq(x)
–
Distribution oftransversely polarisedquarks in a transverselypolarised nucleon.Little known!HERMES and COMPASSfirst experimentalmeasurements
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Transversity in SIDIS
Transversity in Semi inclusive Deep Inelastic Scattering lN → l ′hX
Transversely polarised quark fragments into an unpolarised hadron:
Dh/q↑(z ,p⊥) = Dh/q(z , |p⊥|) +1
2Sq′ · (pq′ × p⊥)∆NDh/q↑(z , |p⊥|),
where p⊥ is transverse momentum of produced hadron withrespect to fragmenting quark → non-perturbative effect.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 4
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Collins FF
Collins Fragmentation Function
There are two different notations for Collins FF:
Dh/q↑(z ,p⊥) = Dh/q(z , |p⊥|) +1
2Sq′ · (pq′ × p⊥)∆NDh/q↑(z , |p⊥|)
and
Dh/q↑(z ,p⊥) = Dh/q(z , |p⊥|) +Sq′ · (pq′xp⊥)
zMπH⊥q
1 (z , |p⊥|),
both ∆NDh/q↑(z , |p⊥|) and H⊥q1 (z , |p⊥|) refer to Collins FF
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Collins FF
Collins Fragmentation Function
There are two different notations for Collins FF:
Dh/q↑(z ,p⊥) = Dh/q(z , |p⊥|) +1
2Sq′ · (pq′ × p⊥)∆NDh/q↑(z , |p⊥|)
and
Dh/q↑(z ,p⊥) = Dh/q(z , |p⊥|) +Sq′ · (pq′xp⊥)
zMπH⊥q
1 (z , |p⊥|),
Relation
∆NDh/q↑(z , |p⊥|) =2|p⊥|zMπ
H⊥q1 (z , |p⊥|) .
Trento conventions: A. Bacchetta, U. D’Alesio, M. Diehl, and C. A. Miller,Phys. Rev. D70, 117504 (2004).
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Collins effect
Collins effects A ∝ sin(φh + φS)
The azimuthal asymmetry arises due to modulation infragmentation function, the Collins function ∆NDh/q↑(z , |p⊥|)couples to transversity ∆Tq(x)AN ∼ sin(φh + φS) ·∆Tq(x)⊗∆NDh/q↑(z , |p⊥|)
= ∆Tq(x)–
= ∆NDh/q↑(z)–
J. C. Collins, Nucl. Phys. B396 (1993) 161
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
Collins effect
Collins effects A ∝ sin(φh + φS)
Asin(φh+φS )UT (x , z) ∼
∑q e2
qx∆Tq(x)∆NDh/q↑(z)∑q e2
qxfq(x)Dh/q(z),
Positivity constraints :
|∆NDh/q↑(z ,p⊥)| ≤ 2Dh/q(z ,p⊥)
Soffer bound :
|∆Tq(x)| ≤ 1
2
[fq/p(x) + ∆q(x)
]J. C. Collins, Nucl. Phys. B396 (1993) 161
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
SIDIS and e+e− annihilation
SIDIS lN → l ′H1X
y
x
z
1
ll ’
q
P
H
Collins effect gives rise to azimuthalSingle Spin Asymmetry
= ∆Tq(x ,Q2)–
= ∆NDh/q↑(z ,Q2)–
J. C. Collins, Nucl. Phys. B396 (1993) 161
e+e− → H1H2X
y
x
+
−
z
1
q q
e
e
2
H
H
Collins effect gives rise to azimuthalasymmetry, q and q Collins func-tions are present in the process:∆NDh/q↑(z1,Q
2)
∆NDh/q↑(z2,Q2)
D. Boer, R.Jacob and P. J. Mulders Nucl.Phys. B504 (1997) 345
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
SIDIS and e+e− annihilation
SIDIS lN → l ′H1X
y
x
z
1
ll ’
q
P
N∆ Dh q
δq
H
Cross Section ∼ sin(φH + φS)·∆Tq(x ,Q2) ⊗ ∆NDh/q↑(z ,Q2)
?
∆Tq(x ,Q2) 6= 0 ?∆NDh/q↑(z ,Q2) 6= 0 ?
e+e− → H1H2X
y
x
+
−
z
1
q q
e
e
2
N∆ Dh q
N∆ Dh q
H
H
Cross Section ∼ cos(φH1 + φH2)·∆NDh/q↑(z1) ⊗ ∆NDh/q↑(z2)
?
∆NDh/q↑(z1,Q2) 6= 0 ?
∆NDh/q↑(z2,Q2) 6= 0 ?
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
SIDIS and e+e− annihilation
SIDIS lN → l ′H1X
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.1 0.2 0.3
2 ⟨sin
(φ+φ S)⟩π U
T
π+
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.2 0.3 0.4 0.5 0.6
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.2 0.4 0.6 0.8 1
-0.12
-0.1
-0.08
-0.06
-0.04
-0.02
0
0.02
0.1 0.2 0.3
2 ⟨sin
(φ+φ S)⟩π U
T
π-
x
-0.12
-0.1
-0.08
-0.06
-0.04
-0.02
0
0.02
0.2 0.3 0.4 0.5 0.6
6.6% scale uncertainty
z
-0.12
-0.1
-0.08
-0.06
-0.04
-0.02
0
0.02
0.2 0.4 0.6 0.8 1Ph⊥ [GeV]
IIIIIIHERMES PRELIMINARY 2002-2004virtual photon asymmetry amplitudesnot corrected for acceptance and smearing
HERMES, proton target,plab = 27.5 (GeV)
HERMES
∆Tq(x ,Q2) 6= 0 !∆NDh/q↑(z ,Q2) 6= 0 !
HERMES Collaboration, A. Airapetianet al. Phys. Rev. Lett. 94 94 (2005) 012002
e+e− → H1H2X
0
0.1
0.2
0 2 4 6 8
0
0.1
0.2
0 2 4 6 8
0.2 0.3 0.5 0.7 1/0.3 0.5 0.7 1/0.5 0.7 1/0.7 1.0
0.2 0.30.3 0.50.5 0.70.7 1.0
A 0
cos(2φ0) method
z1,z2-bin-id
A 12 cos(φ1+φ2) method
z1
z2
BELLE,√
s = 10.52 (GeV),
BELLE
∆NDh/q↑(z1,Q2) 6= 0 !
∆NDh/q↑(z2,Q2) 6= 0 !
Belle Collaboration,K. Abe et al., Phys. Rev. Lett. 96(2006)232002
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
SIDIS and e+e− annihilation
SIDIS lN → l ′H1X
Col
lA
-0.05
0
0.05
0.1
x
-210 -110
Siv
A
-0.1
-0.05
0
0.05
z 0.2 0.4 0.6 0.8
(GeV/c)hT
p0.5 1 1.5
COMPASS, deutron targetplab = 160 (GeV)
COMPASS
∆Tq(x ,Q2) 6= 0 ?∆NDh/q↑(z ,Q2) 6= 0 ?
COMPASS Collaboration, E. S. Ageev et al.,Nucl. Phys. B765, 31 (2007).
e+e− → H1H2X
0
0.1
0.2
0 2 4 6 8
0
0.1
0.2
0 2 4 6 8
0.2 0.3 0.5 0.7 1/0.3 0.5 0.7 1/0.5 0.7 1/0.7 1.0
0.2 0.30.3 0.50.5 0.70.7 1.0
A 0
cos(2φ0) method
z1,z2-bin-id
A 12 cos(φ1+φ2) method
z1
z2
BELLE,√
s = 10.52 (GeV),
BELLE
∆NDh/q↑(z1,Q2) 6= 0 !
∆NDh/q↑(z2,Q2) 6= 0 !
Belle Collaboration,K. Abe et al., Phys. Rev. Lett. 96(2006)232002
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
SIDIS and e+e− annihilation
SIDIS lN → l ′H1X
y
x
z
1
ll ’
q
P
N∆ Dh q
δq
H
?
Are HERMES and COMPASS datacompatible?
Fit HERMES & BELLE and check ifwe describe COMPASS data.
e+e− → H1H2X
y
x
+
−
z
1
q q
e
e
2
N∆ Dh q
N∆ Dh q
H
H
?
∆NDSIDISh/q↑
(z) = ∆NDe+e−
h/q↑(z) ?
Fit simultaneously HERMES, COM-PASS and BELLE data sets.
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Unpolarised distribution and fragmentation functions.
fq/p(x , k⊥) and Dh/q(z , p⊥) TMD distribution and fragmentationfunctions are used.We assume the k⊥ and p⊥ dependences to be factorized in aGaussian form
fq/p(x , k⊥) = fq/p(x)e−k2
⊥/〈k2⊥〉
π〈k2⊥〉
Dh/q(z , p⊥) = Dh/q(z)e−p2
⊥/〈p2⊥〉
π〈p2⊥〉
〈k2⊥〉 = 0.25 (GeV2)
〈p2⊥〉 = 0.2 (GeV2)
M. Anselmino, M. Boglione, U. D’Alesio, A. Kotzinian, F. Murgia, A. Prokudin,Phys. Rev. D71, 074006 (2005).
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Unpolarised distribution and fragmentation functions.
fq/p(x , k⊥) and Dh/q(z , p⊥) TMD distribution and fragmentationfunctions are used.We assume the k⊥ and p⊥ dependences to be factorized in aGaussian form
Distribution functions:fq/p(x) GRV LO 1998M. Gluck, E. Reya, and A. Vogt, Eur. Phys. J. C5, 461 (1998).
Fragmentation functions:Dh/q(z) KretzerS. Kretzer, Phys. Rev. D62, 054001 (2000).
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Collins function
Model for Collins FF
∆NDh/q↑(z , |p⊥|)=⇒ we use factorization of z and p⊥and Gaussian dependence on p⊥
∆NDh/q↑(z , p⊥) = 2NCq (z) Dh/q(z) h(p⊥)
e−p2⊥/〈p2
⊥〉
π〈p2⊥〉
,
with
NCq (z) = NC
q zγ(1− z)δ (γ + δ)(γ+δ)
γγδδ
h(p⊥) =√
2ep⊥M
e−p2⊥/M2
,
where NCq , γ, δ, and M are parameters.
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Collins function
Model for Collins FF
∆NDh/q↑(z , |p⊥|)=⇒ we use factorization of z and p⊥and Gaussian dependence on p⊥
∆NDh/q↑(z , p⊥) = 2NCq (z) Dh/q(z) h(p⊥)
e−p2⊥/〈p2
⊥〉
π〈p2⊥〉
,
with
NCq (z) ≤ 1
h(p⊥) ≤ 1
positivity constraint |∆NDh/q↑(z ,p⊥)| ≤ 2Dh/q(z ,p⊥) is fulfilled.
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Transversity
∆Tq(x , k⊥) =1
2NT
q (x)[fq/p(x) + ∆q(x)
] e−k2⊥/〈k2
⊥〉T
π〈k2⊥〉T
,
where
NTq (x) = NT
q xα(1− x)β (α + β)(α+β)
ααββ,
NTq , α, β and 〈k2
⊥〉T are parameters.
NTq (x) ≤ 1
thus Soffer bound
|∆Tq(x)| ≤ 1
2
[fq/p(x) + ∆q(x)
]is fulfilled.
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of Asin(φh+φS)UT
We use HERMES and COMPASS data sets on Asin(φh+φS )UT in the
fitting procedure, we use one of the two sets of data from BELLEcorresponding to either cos(ϕ1 + ϕ2) or cos(2ϕ0) extractionmethod.Favored and unfavored fragmentation functions are defined asfollows:
D fav (z) ≡ Du→π+(z) = Dd→π−(z) = D u→π−(z) = D d→π+
(z)
Dunfav (z) ≡ Du→π−(z) = Dd→π+(z) = D u→π+
(z) = D d→π−(z)
HERMES Collaboration, L. Pappalardo et al., in the proceedings of the XIVInternational Workshop on Deep Inelastic Scattering, Tsukuba city, Japan, April20th - April 24th. (2006).COMPASS Collaboration, E. S. Ageev et al., Nucl. Phys. B765, 31 (2007).
Belle Collaboration, R. Seidl et al., Phys. Rev. Lett. 96, 232002 (2006).
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of the data Anselmino et al Phys.Rev.D75:054032,2007
Table: FIT I cos(ϕ1 + ϕ2) and FIT II cos(ϕ0) are within 1σ
TransversityFIT I NT
u = 0.48± 0.09 NTd = −0.62± 0.30
FIT II NTu = 0.42± 0.09 NT
d = −0.53± 0.28
FIT I α = 1.14± 0.68 β = 4.74± 5.45FIT II α = 1.20± 0.83 β = 5.09± 5.87
Collins FFFIT I NC
fav = 0.35± 0.16 NCunf = −0.85± 0.36
FIT II NCfav = 0.41± 0.10 NC
unf = −0.99± 1.24
FIT I γ = 1.14± 0.38 δ = 0.14± 0.36FIT II γ = 0.81± 0.40 δ = 0.02± 0.37
FIT I M2 = 0.70± 0.65 GeV2
FIT II M2 = 0.88± 1.15 GeV2
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 20
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of BELLE data
BELLE cos(ϕ0)
) 2, z 1
(z 0A
) 2, z 1
(z 0A
2z 2z
0
0.05
0.1
0.15
0.2 < 0.310.2 < z < 0.510.3 < z
0.2 0.4 0.6 0.8-0.05
0
0.05
0.1
0.15
0.2 < 0.710.5 < z
0.2 0.4 0.6 0.8
< 110.7 < z
BELLE cos(ϕ1 + ϕ2)
) 2, z 1
(z12
A) 2
, z 1(z
12A
2z 2z
0
0.05
0.1
0.15
0.2 < 0.310.2 < z < 0.510.3 < z
0.2 0.4 0.6 0.8-0.05
0
0.05
0.1
0.15
0.2 < 0.710.5 < z
0.2 0.4 0.6 0.8
< 110.7 < z
Solid line corresponds to FIT II, dashed line corresponds to FIT I
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 21
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of BELLE data
BELLE cos(ϕ0)
) 2, z 1
(z 0A
) 2, z 1
(z 0A
2z 2z
0
0.05
0.1
0.15
0.2 < 0.310.2 < z < 0.510.3 < z
0.2 0.4 0.6 0.8-0.05
0
0.05
0.1
0.15
0.2 < 0.710.5 < z
0.2 0.4 0.6 0.8
< 110.7 < z
BELLE cos(ϕ1 + ϕ2)
) 2, z 1
(z12
A) 2
, z 1(z
12A
2z 2z
0
0.05
0.1
0.15
0.2 < 0.310.2 < z < 0.510.3 < z
0.2 0.4 0.6 0.8-0.05
0
0.05
0.1
0.15
0.2 < 0.710.5 < z
0.2 0.4 0.6 0.8
< 110.7 < z
FIT I and FIT II are compatible
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 22
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of HERMES data Asin(φh+φS)UT
HERMES Asin(φh+φS )UT
ep → eπX , plab = 27.57 GeV.) hφ
+ Sφsi
n (
UT
A) hφ
+ Sφsi
n (
UT
A
x z (GeV)TP
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
+π HERMES 2002-2004
0 0.1 0.2 0.3 0.4 0.5 0.6-0.14
-0.12
-0.1
-0.08-0.06
-0.04
-0.020
0.02
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
HERMES Collaboration, L. Pappalardo et al., in the proceedings of the XIVInternational Workshop on Deep Inelastic Scattering, Tsukuba city, Japan, April20th - April 24th. (2006).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 23
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of COMPASS data Asin(φh+φS+π)UT
COMPASS Asin(φh+φS+π)UT
µD → µhX , plab = 160 GeV.)π
+
hφ+ Sφ
sin
(U
TA
)π +
hφ
+ Sφsi
n (
UT
A
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +h COMPASS 2002-2004
-210 -110 1
-0.1
-0.05
0
0.05
0.1 -h
0.26 0.5 0.74 0.98 0.5 1 1.5
COMPASS Collaboration, E. S. Ageev et al., Nucl. Phys. B765, 31 (2007).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 24
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of COMPASS data Asin(φh+φS+π)UT
COMPASS Asin(φh+φS+π)UT
µD → µhX , plab = 160 GeV.)π
+
hφ+ Sφ
sin
(U
TA
)π +
hφ
+ Sφsi
n (
UT
A
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +h COMPASS 2002-2004
-210 -110 1
-0.1
-0.05
0
0.05
0.1 -h
0.26 0.5 0.74 0.98 0.5 1 1.5
Why Asin(φh+φS+π)UT ∼ 0? One of the reasons is that < x >∼ 0.03
(< x >HERMES∼ 0.1)is very small and ∆Tq(x) → 0.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 25
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Description of COMPASS data Asin(φh+φS+π)UT
COMPASS Asin(φh+φS+π)UT
µD → µhX , plab = 160 GeV.)π
+
hφ+ Sφ
sin
(U
TA
)π +
hφ
+ Sφsi
n (
UT
A
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +h COMPASS 2002-2004
-210 -110 1
-0.1
-0.05
0
0.05
0.1 -h
0.26 0.5 0.74 0.98 0.5 1 1.5
But deuteron target allows us to fit ∆Td(x) as combination of∆Tu(x) + ∆Td(x) enters into the asymmetry.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 26
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Collins fragmentation function
(z)
unf
(z)/2
Dun
f DN ∆-
(z)
fav
(z)/2
Dfa
v DN ∆
)(z
, pun
f DN ∆-
)(z
, pfa
v DN ∆
z (GeV)p
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1 2 = 2.4 GeV2Qz = 0.36
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 10
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 10
0.2
0.4
0.6
0.8
1 2 = 2.4 GeV2Qz = 0.36
compared to Ref. [1] (dashed line) and Ref. [2] (dotted line)[1] A. V. Efremov, K. Goeke, and P. Schweitzer, Phys. Rev. D73, 094025(2006).[2] W. Vogelsang and F. Yuan, Phys. Rev. D72, 054028 (2005).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 27
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Collins fragmentation function
(z)
unf
(z)/2
Dun
f DN ∆-
(z)
fav
(z)/2
Dfa
v DN ∆
)(z
, pun
f DN ∆-
)(z
, pfa
v DN ∆ z (GeV)p
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1
0.2
0.4
0.6
0.8
1 2 = 2.4 GeV2Qz = 0.36
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0.2 0.4 0.6 0.80
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 10
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 10
0.2
0.4
0.6
0.8
1 2 = 2.4 GeV2Qz = 0.36
Right panel: solid line corresponds to FIT II, dashed linecorresponds to FIT I
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 28
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Transversity d
(x)
T∆
x
u(x
)T
∆x
)
d(x
, k
T∆
x
)
u(x
, k
T∆
x
x (GeV)k
-0.1
0
0.1
0.2
0.3
0.4
0.5
-0.1
0
0.1
0.2
0.3
0.4
0.5
x = 0.1
0.2 0.4 0.6 0.8 1-0.2
-0.1
0
0.05
0.1
0 0.2 0.4 0.6 0.8 1-0.2
-0.15
-0.1
-0.05
0
0.05
0.1
x = 0.1
This is the firstextraction of transversityfrom experimental data.
∆Tu(x) > 0 and∆Td(x) < 0
Both ∆Tu(x) and∆Td(x) do not saturateSoffer bound.
HERMES data alonefixes well ∆Tu(x) whileHERMES+COMPASSalows us to extract∆Td(x).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 29
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Transversity d
(x)
T∆
x
u(x
)T
∆x
)
d(x
, k
T∆
x
)
u(x
, k
T∆
x
x (GeV)k
-0.1
0
0.1
0.2
0.3
0.4
0.5
-0.1
0
0.1
0.2
0.3
0.4
0.5
x = 0.1
0.2 0.4 0.6 0.8 1-0.2
-0.1
0
0.05
0.1
0 0.2 0.4 0.6 0.8 1-0.2
-0.15
-0.1
-0.05
0
0.05
0.1
x = 0.1
This is the firstextraction of transversityfrom experimental data.
∆Tu(x) > 0 and∆Td(x) < 0
Both ∆Tu(x) and∆Td(x) do not saturateSoffer bound.
HERMES data alonefixes well ∆Tu(x) whileHERMES+COMPASSalows us to extract∆Td(x).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 30
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Transversity d
(x)
T∆
x
u(x
)T
∆x
)
d(x
, k
T∆
x
)
u(x
, k
T∆
x
x (GeV)k
-0.1
0
0.1
0.2
0.3
0.4
0.5
-0.1
0
0.1
0.2
0.3
0.4
0.5
x = 0.1
0.2 0.4 0.6 0.8 1-0.2
-0.1
0
0.05
0.1
0 0.2 0.4 0.6 0.8 1-0.2
-0.15
-0.1
-0.05
0
0.05
0.1
x = 0.1
This is the firstextraction of transversityfrom experimental data.
∆Tu(x) > 0 and∆Td(x) < 0
Both ∆Tu(x) and∆Td(x) do not saturateSoffer bound.
HERMES data alonefixes well ∆Tu(x) whileHERMES+COMPASSalows us to extract∆Td(x).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 31
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
Transversity d
(x)
T∆
x
u(x
)T
∆x
)
d(x
, k
T∆
x
)
u(x
, k
T∆
x
x (GeV)k
-0.1
0
0.1
0.2
0.3
0.4
0.5
-0.1
0
0.1
0.2
0.3
0.4
0.5
x = 0.1
0.2 0.4 0.6 0.8 1-0.2
-0.1
0
0.05
0.1
0 0.2 0.4 0.6 0.8 1-0.2
-0.15
-0.1
-0.05
0
0.05
0.1
x = 0.1
This is the firstextraction of transversityfrom experimental data.
∆Tu(x) > 0 and∆Td(x) < 0
Both ∆Tu(x) and∆Td(x) do not saturateSoffer bound.
HERMES data alonefixes well ∆Tu(x) whileHERMES+COMPASSalows us to extract∆Td(x).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 32
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
PREDICTIONS
JLab
ep → eπX , plab = 6 GeV.
) hφ+ Sφ
sin
(U
TA
) hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
+π JLab 6 GeV
0.2 0.4 0.6 0.8 1-0.14
-0.12
-0.1
-0.08-0.06
-0.04
-0.020
0.02
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
COMPASS
µp → µhX , plab = 160 GeV.
)π +
hφ
+ Sφsi
n (
UT
A)π
+
hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +h
-210 -110 1
-0.1
-0.05
0
0.05
0.1 -h
0.26 0.5 0.74 0.98 0.5 1 1.5
JLab can improve our knowledge of transversity in high x region.COMPASS operating on proton target is expected to measure 5%asymmetry at x ∼ 0.2
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 33
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
PREDICTIONS
JLab
eN → eπX , plab = 6 GeV.
) hφ+ Sφ
sin
(U
TA
) hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π JLab N 6 GeV
0.2 0.4 0.6 0.8 1
-0.1
-0.05
0
0.05
0.1
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
HERMES
ep → eKX , plab = 27.57 GeV.
) hφ+ Sφ
sin
(U
TA
) hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.2
-0.1
0
0.1
0.2
+K HERMES 2002-2004
0 0.1 0.2 0.3 0.4 0.5 0.6
-0.2
-0.1
0
0.1
0.2
-K
0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
JLab can improve our knowledge of ∆Td(x) transversity usingneutron target. Prediction of the model are compatible with Kaondata from HERMES.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 34
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for Collins FF and transversity Description of the data & Predictions
PREDICTIONS
JLab
eN → eπX , plab = 6 GeV.
) hφ+ Sφ
sin
(U
TA
) hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π JLab N 6 GeV
0.2 0.4 0.6 0.8 1
-0.1
-0.05
0
0.05
0.1
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
HERMES
ep → eKX , plab = 27.57 GeV.
) hφ+ Sφ
sin
(U
TA
) hφ+ Sφ
sin
(U
TA
x z (GeV)TP
-0.2
-0.1
0
0.1
0.2
+K HERMES 2002-2004
0 0.1 0.2 0.3 0.4 0.5 0.6
-0.2
-0.1
0
0.1
0.2
-K
0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
Asin(φh+φS )UT |proton ∼ 4∆Tu(x)∆NDh/u↑(z) + ∆Td(x)∆NDh/d↑(z)
Asin(φh+φS )UT |neutron ∼ 4∆Td(x)∆NDh/u↑(z) + ∆Tu(x)∆NDh/d↑(z)
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 35
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers effect
Sivers effect A ∝ sin(φh − φS)
The azimuthal asymmetry arises due to modulation in partondensity, the so called Sivers function ∆N fq/p↑ is the difference ofparton distributions in a polarized hadron.AN ∼ sin(φh − φS) ·∆N fq/p↑(x , k⊥)⊗ Dh/q(z)
= ∆N fq/p↑–
= Dh/q
D. Sivers, Phys. Rev. D41(1990) 83
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 36
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers effect
Sivers effect A ∝ sin(φh − φS)
Asin(φh−φS )UT (x , z) ∼
∑q e2
qxz∆N fq/p↑(x)Dh/q(z)∑q e2
qxfq(x)Dh/q(z),
Positivity constraints :
|∆N fq/p↑(x , k⊥)| ≤ 2fq(x , k⊥)
Two different notations:
fq/p↑(x , k⊥) = fq/p(x , k⊥) +1
2∆Nfq/p↑(x , k⊥) S
T· (P× k⊥)
= fq/p(x , k⊥)− f ⊥q1T (x , k⊥)
ST· (P× k⊥)
mp,
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 37
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers effect
Sivers effect A ∝ sin(φh − φS)
Asin(φh−φS )UT (x , z) ∼
∑q e2
qxz∆N fq/p↑(x)Dh/q(z)∑q e2
qxfq(x)Dh/q(z),
Positivity constraints :
|∆N fq/p↑(x , k⊥)| ≤ 2fq(x , k⊥)
Two different notations:
Relation
∆Nfq/p↑(x , k⊥) = −2|k⊥|mp
f ⊥q1T (x , k⊥) .
Trento conventions: A. Bacchetta, U. D’Alesio, M. Diehl, and C. A. Miller,Phys. Rev. D70, 117504 (2004).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 38
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers function
Model for Sivers function
∆Nfq/p↑(x , k⊥)=⇒ we use factorization of x and k⊥and Gaussian dependence on k⊥
∆Nfq/p↑(x , k⊥) = 2Nq(x) fq(x) h(k⊥)e−p2
⊥/〈k2⊥〉
π〈k2⊥〉
,
with
Nq(x) = Nq xaq(1− x)bq(aq + bq)
(aq+bq)
aaqq b
bqq
h(k⊥) =√
2ek⊥M ′ e
−k2⊥/M′2
,
where Nq, aq, bq, and M ′ are parameters.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 39
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers function
Model for Sivers function
∆Nfq/p↑(x , k⊥)=⇒ we use factorization of x and k⊥and Gaussian dependence on k⊥
∆Nfq/p↑(x , k⊥) = 2Nq(x) fq(x) h(k⊥)e−p2
⊥/〈k2⊥〉
π〈k2⊥〉
,
with
Nq(x) ≤ 1
h(k⊥) ≤ 1
positivity constraint |∆N fq/p↑(x , k⊥)| ≤ 2fq(x , k⊥) is fulfilled.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 40
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of Asin(φh−φS)UT
We use HERMES and COMPASS data sets on Asin(φh−φS )UT in the
fitting procedure.u, d and sea Sivers functions are fitted.For sea Sivers functions we use
∆N fu/p↑(x , k⊥) ,∆N fd/p↑(x , k⊥) ,∆N fs/p↑(x , k⊥) ,∆N fs/p↑(x , k⊥).
HERMES Collaboration, Diefenthaler M., HERMES measurements of Collins and Siversasymmetries from a transversely polarised hydrogen target, arXiv:0706.2242COMPASS Collaboration, Martin A. COMPASS results on transverse single-spinasymmetries Czech. J. Phys. B56, F33-F52 (2006).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 41
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of the data
Table: Best values of the free parameters for the u, d and sea Siversfunctions.
χ2/d.o.f. = 1.
u Nu = 0.33+0.062−0.067
Sivers au = 0.58+0.86−0.46 bu = 2.6+4.4
−2.3
function
d Nd = −1.00+0.004−0.000
Sivers ad = 0.75+0.65−0.36 bd = 1.1+2.5
−0.92
function
sea Nu = 0.005+0.24−0.15 Nd = −0.36+0.39
−0.51
Ns = −0.19+0.61−0.74 Ns = 1.00+0
−0.00059
Sivers asea = 1.5+2.6−1.2 bsea = 11+31
−11
function
〈k2⊥〉 = 0.25 GeV2 M ′2 = 0.41+0.41
−0.18
GeV2
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 42
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of HERMES data Asin(φh−φS)UT
HERMES Asin(φh−φS )UT
ep → eπX , plab = 27.57 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
)Sφ
-
hφsi
n (
UT
A
x z (GeV)TP
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
0π HERMES 2002-2005
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
+π
0 0.1 0.2 0.3 0.4 0.5
-0.1
-0.05
0
0.05
0.1
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
HERMES Collaboration, Diefenthaler M., HERMES measurements of Collins and Siversasymmetries from a transversely polarised hydrogen target, arXiv:0706.2242
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 43
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
COMPASS Collaboration, Martin A. COMPASS results on transverse single-spinasymmetries Czech. J. Phys. B56, F33-F52 (2006).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 44
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
Why Asin(φh−φS )UT ∼ 0?
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 45
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
(A
sin(φh−φS )UT
)hydrogen
∼ 4 ∆Nfu/p↑ Dhu + ∆Nfd/p↑ Dh
d
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 46
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
(A
sin(φh−φS )UT
)deuterium
∼(∆Nfu/p↑ + ∆Nfd/p↑
) (4 Dh
u + Dhd
)Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 47
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
(A
sin(φh−φS )UT
)deuterium
∼(∆Nfu/p↑ + ∆Nfd/p↑
)∼ 0
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 48
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Description of COMPASS data Asin(φh−φS)UT
COMPASS Asin(φh−φS )UT
µD → µhX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
But deuteron target allows us to fit better ∆Nfd/p↑ as combination
of ∆Nfu/p↑ + ∆Nfd/p↑ enters into the asymmetry.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 49
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Sivers function
(x)
(1)
fN
∆x
ud
ud
ss
) f
(x, k
N∆
xu
du
ds
sx (GeV)k
0
0.02
0.04
0
0.2
0.4
x = 0.1
-0.05
0
-0.4
-0.2
0
x = 0.1
-0.02
0
0.02
-0.2
0
0.2 x = 0.1
-0.02
0
0.02
-0.2
0
0.2 x = 0.1
-0.02
0
0.02
-0.2
0
0.2 x = 0.1
-310 -210 -110 1
-0.02
0
0.02
0 0.2 0.4 0.6 0.8 1-0.2
0
0.2 x = 0.1
∆Nf(1)q (x) ≡
∫d2 k⊥
k⊥4mp
∆Nfq/p↑(x , k⊥) = −f⊥(1)q1T (x) .
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 50
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
KAON HERMES AND COMPASS DATA
HERMES
ep → eKX , plab = 27.57 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.2
-0.1
0
0.1
0.2 +K HERMES 2002-2005
0 0.1 0.2 0.3 0.4 0.5
-0.2
-0.1
0
0.1
0.2
-K0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
DSS KRE HKNS
HERMES
ep → eKX , plab = 27.57 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.2
-0.1
0
0.1
0.2 +K HERMES 2002-2005
0 0.1 0.2 0.3 0.4 0.5
-0.2
-0.1
0
0.1
0.2
-K0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
Kaon FF as given by De Florian et al. in Ref.de Florian D., Sassot R., and Stratmann M. Phys. Rev. D75 114010 (2007)
(right panel) are compared the Kretzer (dotted lines) and HKNSset (dashed lines) of fragmentation functions (left panel).
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 51
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
Fragmentation function
z D
(z)
ud
ud
ss
z D
(z)
ud
ud
ss
z z
0
0.5
1 +π
0
0.5
1 +K
0
0.5
1
0
0.5
1
0
0.5
1
0
0.5
1
0
0.5
1
0
0.5
1
0
0.5
1
0
0.5
1
0 0.2 0.4 0.6 0.8 10
0.5
1
0 0.2 0.4 0.6 0.8 10
0.5
1
DSS KRE HKNS
K+(us), π+(ud) thus knowledge of s → K+ FF is very important
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 52
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
KAON HERMES AND COMPASS DATA
COMPASS
µD → µKX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +K COMPASS 2003-2004
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -K
0.2 0.4 0.6 0.8 0.5 1 1.5
HERMES
ep → eKX , plab = 27.57 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.2
-0.1
0
0.1
0.2 +K HERMES 2002-2005
0 0.1 0.2 0.3 0.4 0.5
-0.2
-0.1
0
0.1
0.2
-K0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
Model description of COMPASS and HERMES Kaon data.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 53
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Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
PREDICTIONS
JLab
ep → eπX , plab = 6 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
0
0.05
0.1
0.15+π JLab 6 GeV
0.2 0.4 0.6 0.8 1
-0.1
-0.05
0
0.05
0.1
-π0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
COMPASS
µp → µπX , plab = 160 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.1
-0.05
0
0.05
0.1 +π
-310 -210 -110 1
-0.1
-0.05
0
0.05
0.1 -π
0.2 0.4 0.6 0.8 0.5 1 1.5
JLab can improve our knowledge of Sivers function in high xregion. COMPASS operating on proton target is expected tomeasure 5% asymmetry for h+.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 54
![Page 55: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/55.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS ConclusionsThe model for the Sivers function Description of the data & Predictions
PREDICTIONS
JLab
eN → eπX , plab = 6 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
-0.3
-0.2
-0.1
-0
0.1 +π JLab N 6 GeV
0.2 0.4 0.6 0.8 1
-0.3
-0.2
-0.1
-0
0.1
-π
0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
JLab
ep → eKX , plab = 6 GeV.
)Sφ
-
hφsi
n (
UT
A)
Sφ -
hφ
sin
(U
TA
x z (GeV)TP
0
0.05
0.1
0.15 +K JLab 6 GeV
0.2 0.4 0.6 0.8 1
-0.1
-0.05
0
0.05
0.1
-K0.2 0.4 0.6 0.8 0.2 0.4 0.6 0.8 1
JLab can improve our knowledge of ∆Nfd/p↑ using neutron target.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 55
![Page 56: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/56.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 56
![Page 57: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/57.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 57
![Page 58: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/58.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 58
![Page 59: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/59.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 59
![Page 60: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/60.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 60
![Page 61: Transversity, Collins and Sivers Effectstheor.jinr.ru/~spin/Spin-Dubna07/2 4TuA/6 Prokudin...Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions](https://reader036.vdocuments.us/reader036/viewer/2022070923/5fbb20e576ef2f69ce05c444/html5/thumbnails/61.jpg)
Introduction Collins effect in SIDIS and e+e− annihilation Sivers effect in SIDIS Conclusions
CONCLUSIONS
First extraction of transversity for u and d quarks, ∆Tu(x)and ∆Td(x), from HERMES, COMPASS and BELLE data ispresented.
Transversity ∆Tq(x) is found not to saturate Soffer bound(q(x) + ∆q(x))/2.∆Tu(x) > 0 and ∆Td(x) < 0
Estimates of the Collins fragmentation functions for favouredand unfavoured fragmentation have been obtained.∆ND fav
h (z , |p⊥|) > 0 and ∆NDunfh (z , |p⊥|) < 0
Sivers functions for u, d and sea quarks are extracted fromHERMES and COMPASS data.
Predictions for Collins and Sivers asymmetries at JLab andCOMPASS (with the proton target) are presented andexpected to be sizable.
THANK YOU!
Alexei Prokudin Dubna, 4 September 2007 Transversity, Collins and Sivers Effects 61