9,114 research outputs found
X(1576) as Diquark-Antidiquark Bound State
We propose that the broad resonance structure recently discovered by
BES in is the P-wave excitation of a
diquark-antidiquark bound state. This interpretation implies that there exists
a negative parity, vector nonet. A rough estimate of the mass spectrum of the
nonet is presented, and the prediction for the mass of X(1576) is consistent
with the experimental data. The OZI allowed strong decays are studied, it can
decay into two pseudoscalars or one pseudoscalar plus one vector meson. A
crucial prediction is that X(1576) should dominantly decay into ,
, . Since the isospin of X(1576) is , the
observation of or states which predominantly decays into
strange mesons could provide another important test to our proposal. To search
the charged isospin partner associated with X(1576) in , , , is suggested.Comment: 15 pages, 1 figur
Gluon Spin in the Nucleon
We study the operator description of the gluon spin contribution ()
to the nucleon's spin as it is measured in deep inelastic processes.
can be related to the forward matrix element of a local gluon operator in
gauge. In quark models the nucleon contains ambient color electric and
magnetic fields. The latter are thought to be responsible for spin splittings
among the light baryons. We show that these fields give rise to a significant
{\it negative\/} contribution to at the quark model renormalization
scale, . The non-Abelian character of QCD is responsible for the sign
of . In a generic non-relativistic quark model , in the bag model
. These correspond to
and at .Comment: 12 pages in REVTeX. The paper has been entirely revise
Single-spin Azimuthal Asymmetries in the ``Reduced Twist-3 Approximation''
We consider the single-spin azimuthal asymmetries recently measured at the
HERMES experiment for charged pions produced in semi-inclusive deep inelastic
scattering of leptons off longitudinally polarized protons. Guided by the
experimental results and assuming a vanishing twist-2 transverse quark spin
distribution in the longitudinally polarized nucleon, denoted as ``reduced
twist-3 approximation'', a self-consistent description of the observed
single-spin asymmetries is obtained. In addition, predictions are given for the
z dependence of the single target-spin asymmetry.Comment: 8 pages, 2 figures, typos corrected, very small changes to text,
reference adde
Evolution of Gluon Spin in the Nucleon
We examine the evolution of gluon polarization in polarized nucleons.
As is well known, the evolution of is negligible for
typical momentum transfer variations found in experimental deep inelastic
scattering. As increases, however, the leading nonzero term in the
evolution equation for the singlet first moment reduces the magnitude of the
gluon spin. At low the term can vanish, and
ultimately become negative. Thus, low energy model calculations yielding
negative are not necessarily in conflict with experimental evidence
for positive gluon polarization at high .Comment: ReVTeX + psfig, 7 pages, 3 figures (postscript), accepted in Physics
Letters B, ([email protected]
Interpolating the Nucleon's Spin-Dependent Sum Rules at High and Low Energies
I discuss a few interpolating sum rules for spin structure functions of the
nucleon. Using the concept of duality, I argue that the sum rule,
including the elastic contribution, is useful for learning higher twist matrix
elements of the nucleon.Comment: 9 pages in Plain TeX, MIT CTP #220
Diquarks and antiquarks in exotics: a menage a trois and a menage a quatre
A menage a trois is very different from an ordinary family. Similarly, exotic
hadrons with both qq and qbar q pairs have important color-space correlations
that are completely absent in ordinary mesons and baryons. The presence of both
types of pairs requires attention to the basic QCD physics that the q qbar
interaction is much stronger than the qq interaction. This new physics in
multiquark systems produces color structures totally different from those of
normal hadrons, for example the ud system is utterly unlike the ud diquark in
the uds Lambda baryon. The color-space correlations produce unusual
experimental properties in tetraquarks with heavy quark pairs which may be
relevant for newly discovered mesons like the X(3872) resonance. Tetraquark
masses can be below the two-meson threshold for sufficiently high quark masses.
A simple model calculation shows the b q bbar ubar and b q cbar qbar
tetraquarks below the B Bbar and B Dbar thresholds. Some of these states have
exotic electric charge and their decays might have striking signatures
involving monoenergetic photons and/or pions.Comment: Journal version (PLB
Ionized Gas Kinematics and Morphology in Sgr B2 Main on 1000 AU Scales
We have imaged the Sgr B2 Main region with the Very Large Array in the BnA
configuration ( = 0\farcs13) in both the H52 (45.453
GHz) radio recombination line (RRL) and 7 mm continuum emission. At a distance
of 8500 pc, this spatial resolution corresponds to a physical scale of 0.005 pc
(1100 AU). The current observations detect H52 emission in 12
individual ultracompact (UC) and hypercompact (HC) HII regions. Two of the
sources with detected H52 emission have broad
(V50 \kms) recombination lines, and two of the sources
show lines with peaks at more than one velocity. We use line parameters from
the H52 lines and our previous H66 line observations to
determine the relative contribution of thermal, pressure and kinematic
broadening, and electron density. These new observations suggest that pressure
broadening can account for the broad lines in some of the sources, but that gas
motions (e.g. turbulence, accretion or outflow) contribute significantly to the
broad lines in at least one of the sources (Sgr B2 F3).Comment: 10 pages, 2 figure
QCD sum rule approach for the light scalar mesons as four-quark states
We study the two point-function for the scalar mesons and as diquak-antidiquark states. We also study the decays
of these mesons into , and . We found that the
couplings are consistent with existing experimental data, pointing in favor of
the four-quark structure for the light scalar mesons.Comment: 6 pages, 4 figure
The structure of from charmed mesons decays
We use the QCD sum rules to evaluate the form factors associated with the
semileptonic decays of and mesons into . We consider the
meson as a quark-antiquark state with a mixture of strange and light
components. The decay rates are evaluated in terms of the mixing angle. Using
the same form factors to evaluate nonleptonic decays in the framework of the
factorization approximation we conclude that the importance of the light quarks
in is not negligible.Comment: 11 pages, 2 figures, using Revtex
Correlated and exchange in the baryon-baryon interaction
A dynamical model for correlated two-pion and two-kaon exchange in the
baryon- baryon interaction is presented, both in the scalar-isoscalar
() and the vector-isovector () channel. The correlations between
the two pseudoscalar mesons are taken into account by means of amplitudes derived from a meson-exchange model, which is in line with the
empirical data. It is found that correlated exchange plays
an important role in the -channel for baryon-baryon states with non-
vanishing strangeness. The strength of correlated plus
exchange in the -channel decreases with the strangeness of the baryon-
baryon system becoming more negative. The results for correlated -
exchange in the vector-isovector channel deviate from what is expected in the
naive SU(3) picture for genuine -exchange. Shortcomings of a simplified
description in terms of sharp mass - and -exchange are pointed
out.Comment: 51 pages, Latex file, figures available from
[email protected]
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