13,323 research outputs found
Effective theory of NN interactions in a separable representation
We consider the effective field theory of the NN system in a separable
representation. The pionic part of the effective potential is included
nonperturbatively and approximated by a separable potential. The use of a
separable representation allows for the explicit solution of the
Lippmann-Schwinger equation and a consistent renormalization procedure. The
phase shifts in the channel are calculated to subleading order.Comment: 7 page
Strong coupling constant from bottomonium fine structure
From a fit to the experimental data on the fine structure, the
two-loop coupling constant is extracted. For the 1P state the fitted value is
at the scale GeV, which corresponds to the QCD constant MeV (n_f = 4) and \alpha_s(\mu_2) = 0.40 \pm 0.02(exp)\pm 0.02(th)\mu_2 = 1.02 \pm 0.2\alpha_s(1.0) \approx 0.40\alpha_s\alpha_s$ are found to be about 15%.Comment: 18 pages LaTe
Disentangling Intertwined Embedded States and Spin Effects in Light-Front Quantization
Naive light-front quantization, carried out by a light-front energy
integration of covariant amplitudes, is not guaranteed to generate the
corresponding Feynman amplitudes. In an explicit example we show that the
nonvalence contribution to the minus-component of the EM current of a meson
with fermion constituents has a persistent end-point singularity. Only after
this term is subtracted, the result is covariant and satisfies current
conservation. If the spin-1/2 constituents are replaced by spin zero ones, the
singularity does not occur and the result is, without any adjustment, identical
to the Feynman amplitude. Numerical estimates of valence and nonvalence
contributions are presented for the cases of fermion and boson constituents.Comment: 17 pages and 9 figure
The leptonic widths of high -resonances in unitary coupled-channel model
The leptonic widths of high -resonances are calculated in a
coupled-channel model with unitary inelasticity, where analytical expressions
for mixing angles between (n+1)\,^3S_1 and n\,^3D_1 states and
probabilities of the component are derived. Since these factors
depend on energy (mass), different values of mixing angles
and ,
, and are obtained. It gives
the leptonic widths ~keV,
~keV in good agreement with
experiment. For the leptonic width
~keV is calculated, while for the missing
resonance we predict ~MeV and
~keV.Comment: 10 pages, 6 references corrected, some new material adde
Higher excitations of the and mesons
The masses of higher and excitations are shown to decrease
due to the string contribution, originating from the rotation of the QCD string
itself: it lowers the masses by 45 MeV for and by 65 MeV for . An additional decrease MeV takes place if the current mass
of the light (strange) quark is used in a relativistic model. For
and the calculated masses agree with the
experimental values for and , and the masses of
, , , and are in
agreement with the new BaBar data. For the yet undiscovered resonances we
predict the masses MeV, MeV,
MeV, and MeV. We show that
for the states with and () are almost
completely unmixed (), which implies that the mixing
angles between the states with S=1 and S=0 () are for L=2 and for L=3.Comment: 22 pages, no figures, 4 tables Two references and corresponding
discussion adde
Comparison of relativistic bound-state calculations in Front-Form and Instant-Form Dynamics
Using the Wick-Cutkosky model and an extended version (massive exchange) of
it, we have calculated the bound states in a quantum field theoretical
approach. In the light-front formalism we have calculated the bound-state mass
spectrum and wave functions. Using the Terent'ev transformation we can write
down an approximation for the angular dependence of the wave function. After
calculating the bound-state spectra we characterized all states found.
Similarly, we have calculated the bound-state spectrum and wave functions in
the instant-form formalism. We compare the spectra found in both forms of
dynamics in the ladder approximation and show that in both forms of dynamics
the O(4) symmetry is broken.Comment: 22 pages Latex, 7 figures, style file amssymb use
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