180 research outputs found
New insight on the Sivers transverse momentum dependent distribution function
Polarised Semi-Inclusive Deep Inelastic Scattering (SIDIS) processes allow to
study Transverse Momentum Dependent partonic distributions (TMDs), which reveal
a non trivial three dimensional internal structure of the hadrons in momentum
space. One of the most representative of the TMDs is the so-called Sivers
function that describes the distribution of unpolarized quarks inside a
transversely polarized proton. We present a novel extraction of the Sivers
distribution functions from the most recent experimental data of HERMES and
COMPASS experiments. Using suitable parametrizations, within the TMD
factorization scheme, and a simple fitting strategy, we also perform a
preliminary exploration of the role of the proton sea quarks.Comment: Talk delivered by M. Boglione at SPIN2010, September 27-October 2,
2010, Juelich, Germany. Left panel of Fig. 5 replace
Transverse spin effects of sea quarks in unpolarized nucleons
We calculate the non-zero Boer-Mulders functions of sea quarks inside the
proton in a meson-baryon fluctuation model. The results show that the
transverse spin effects of sea quarks in an unpolarized nucleon are sizable.
Using the obtained antiquark Boer-Mulders functions, we estimate the asymmetries in the unpolarized and Drell-Yan processes at FNAL
E866/NuSea experiments. The prediction for the asymmetries in the
unpolarized Drell-Yan process at the BNL Relativistic Heavy Ion Collider
(RHIC) is also given.Comment: 7 pages, 5 figures, to appear in Physical Review
Asymmetries involving dihadron fragmentation functions: from DIS to e+e- annihilation
Using a model calculation of dihadron fragmentation functions, we fit the
spin asymmetry recently extracted by HERMES for the semi-inclusive pion pair
production in deep-inelastic scattering on a transversely polarized proton
target. By evolving the obtained dihadron fragmentation functions, we make
predictions for the correlation of the angular distributions of two pion pairs
produced in electron-positron annihilations at BELLE kinematics. Our study
shows that the combination of two-hadron inclusive deep-inelastic scattering
and electron-positron annihilation measurements can provide a valid alternative
to Collins effect for the extraction of the quark transversity distribution in
the nucleon.Comment: 11 pages, RevTeX style, 6 figures in eps forma
Constraints on the gluon Sivers distribution via transverse single spin asymmetries at midrapidity in p(transv. polarized) p -> pi^0 X processes at BNL RHIC
We consider the recent RHIC data on the transverse single spin asymmetry
(SSA) A_N, measured in p(transv. polarized) p -> pi^0 X processes at
mid-rapidity by the PHENIX collaboration. The measurement is consistent with a
vanishing SSA. We analyze this experimental information within a hard
scattering approach based on a generalized QCD factorization scheme, with
unintegrated, transverse momentum dependent (TMD), parton distribution and
fragmentation functions. It turns out that, in the kinematical region of the
data, only the gluon Sivers effect could give a large contribution to A_N; its
vanishing value is thus an indication about the possible size of the gluon
Sivers function (GSF). Approximate upper limits on its magnitude are derived.
Additional constraints obtained combining available parameterizations of the
quark Sivers function and the Burkardt sum rule (BSR) for the Sivers
distributions are also discussed.Comment: RevTeX, 8 pages, 2 ps figures; v2: few clarifying comments, a "note
added in proof" and some references added; version published in Phys. Rev.
Unified framework for generalized and transverse-momentum dependent parton distributions within a 3Q light-cone picture of the nucleon
We present a systematic study of generalized transverse-momentum dependent
parton distributions (GTMDs). By taking specific limits or projections, these
GTMDs yield various transverse-momentum dependent and generalized parton
distributions, thus providing a unified framework to simultaneously model
different observables. We present such simultaneous modeling by considering a
light-cone wave function overlap representation of the GTMDs. We construct the
different quark-quark correlation functions from the 3-quark Fock components
within both the light-front constituent quark model as well as within the
chiral quark-soliton model. We provide a comparison with available data and
make predictions for different observables.Comment: version to appear in JHE
Effective role of unpolarized nonvalence partons in Drell-Yan single spin asymmetries
We perform numerical simulations of the Sivers effect from single spin
asymmetries in Drell-Yan processes on transversely polarized protons. We
consider colliding antiprotons and pions at different kinematic conditions of
interest for the future planned experiments. We conventionally name "framework
I" the results obtained when properly accounting for the various flavor
dependent polarized valence contributions in the numerator of the asymmetry,
and for the unpolarized nonvalence contribution in its denominator. We name
"framework II" the results obtained when taking a suitable flavor average of
the valence contributions and neglecting the nonvalence ones. We compare the
two methods, also with respect to the input parametrization of the Sivers
function which is extracted from data with approximations sometimes
intermediate between frameworks I and II. Deviations between the two approaches
are found to be small except for dilepton masses below 3 GeV. The Sivers effect
is used as a test case; the arguments can be generalized to other interesting
azimuthal asymmetries in Drell-Yan processes, such as the Boer-Mulders effect.Comment: 13 pages, 9 figures in eps forma
The US Electron Ion Collider Accelerator Designs
With the completion of the National Academies of Sciences Assessment of a US Electron-Ion Collider, the prospects for construction of such a facility have taken a step forward. This paper provides an overview of the two site-specific EIC designs: JLEIC (Jefferson Lab) and eRHIC (BNL) as well as brief overview of ongoing EIC R&D
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