3,362 research outputs found

    On the possibility of Deeply Bound Hadronic Molecules from single Pion Exchange

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    Pion exchange in S-wave between hadrons that are themselves in a relative S-wave can shift energies by hundreds of MeV. In the case of charmed mesons D,D∗,D0,D1D,D^*,D_0,D_1 a spectroscopy of quasi-molecular states may arise consistent with enigmatic charmonium states observed above 4 GeV in e+e−e^+e^- annihilation. A possible explanation of Y(4260)→ψππY(4260)\to \psi\pi\pi and Y(4360)→ψ′ππY(4360) \to \psi'\pi\pi is found. Searches in DDˉ3πD\bar{D}3\pi channels as well as B decays are recommended to test this hypothesis.Comment: 5 pages, 1 figure. Version accepted to PRL. Equation 3 of v1 of this paper was wrong and has been taken into account in this version. Other minor typos corrected... conclusions unchange

    Chiral Dynamics of Deeply Bound Pionic Atoms

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    We present and discuss a systematic calculation, based on two-loop chiral perturbation theory, of the pion-nuclear s-wave optical potential. A proper treatment of the explicit energy dependence of the off-shell pion self-energy together with (electromagnetic) gauge invariance of the Klein-Gordon equation turns out to be crucial. Accurate data for the binding energies and widths of the 1s and 2p levels in pionic ^{205}Pb and ^{207}Pb are well reproduced, and the notorious "missing repulsion" in the pion-nuclear s-wave optical potential is accounted for. The connection with the in-medium change of the pion decay constant is clarified.Comment: preprint ECT*-02-16, 4 pages, 3 figure

    Isospin breaking in pion-nucleon scattering at threshold by radiative processes

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    We investigate the dispersive contribution by radiative processes such as (pi- proton to neutron gamma) and (pi- proton to Delta gamma) to the pion-nucleon scattering lengths of charged pions in the heavy baryon limit. They give a large isospin violating contribution in the corresponding isoscalar scattering length, but only a small violation in the isovector one. These terms contribute 6.3(3)% to the 1s level shift of pionic hydrogen and give a chiral constant F_pi^2f_1=-25.8(8) MeV.Comment: 9 pages with 1 figur

    Spin projection in the shell model Monte Carlo method and the spin distribution of nuclear level densities

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    We introduce spin projection methods in the shell model Monte Carlo approach and apply them to calculate the spin distribution of level densities for iron-region nuclei using the complete (pf+g9/2)(pf+g_{9/2})-shell. We compare the calculated distributions with the spin-cutoff model and extract an energy-dependent moment of inertia. For even-even nuclei and at low excitation energies, we observe a significant suppression of the moment of inertia and odd-even staggering in the spin dependence of level densities.Comment: 4 pages, 4 figure

    Precision determination of the pi-N scattering lengths and the charged pi-NN coupling constant

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    We critically evaluate the isovector GMO sumrule for the charged πNN\pi N N coupling constant using recent precision data from π−\pi ^-p and π−\pi^-d atoms and with careful attention to systematic errors. From the π−\pi ^-d scattering length we deduce the pion-proton scattering lengths 1/2(aπ−p+aπ−n)=(−20±6{1/2}(a_{\pi ^-p}+a_{\pi ^-n})=(-20\pm 6(statistic)±10 \pm 10 (systematic))~⋅10−4mπc−1\cdot 10^{-4}m_{\pi_c}^{-1} and 1/2(aπ−p−aπ−n)=(903±14)⋅10−4mπc−1{1/2}(a_{\pi ^-p}-a_{\pi ^-n})=(903 \pm 14)\cdot 10^{-4}m_{\pi_c}^{-1}. From this a direct evaluation gives gc2(GMO)/4π=14.20±0.07g^2_c(GMO)/4\pi =14.20\pm 0.07(statistic)±0.13\pm 0.13(systematic) or fc2/4π=0.0786±0.0008f^2_c/4\pi= 0.0786\pm 0.0008.Comment: 4 pages, 1 figure, latex and postscript; invited talk at PANIC99; to appear in Nucl. Phys. A; changed notation: g^2 and f^2 replaced by conventional g^2/4\pi and f^2/4\p

    Unusual statistics of interference effects in neutron scattering from compound nuclei

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    We consider interference effects between p-wave resonance scattering amplitude and background s-wave amplitude in low-energy neutron scattering from a heavy nucleus which goes through the compound nucleus stage. The first effect is in the difference between the forward and backward scattering cross sections. Because of the chaotic nature of the compound states, this effect is a random variable with zero mean. However, a statistical consideration shows that the probability distribution of this effect does not obey the standard central limit theorem. That is, the probability density for the effect averaged over n resonances does not become a Gaussian distribution with the variance decreasing as 1/sqrt(n) (``violation'' of the theorem!). We derive the probability distribution of the effect and the limit distribution of the average. It is found that the width of this distribution does not decrease with the increase of n, i.e., fluctuations are not suppressed by averaging. Furthermore, we consider the correlation between the neutron spin and the scattering plane and find that this effect, although much smaller, shows fluctuations which actually increase upon averaging over many measurements. Limits of the effects due to finite resonance widths are also considered. In the appendix we present a simple derivation of the limit theorem for the average of random variables with infinite variances.Comment: 15 pages, RevTeX, submitted to Phys. Rev.

    Impulse approximation in the n p --> d pi^0 reaction reexamined

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    The impulse approximation (one-body operator) in the n p --> d pi^0 reaction is reexamined with emphasis on the issues of reducibility and recoil corrections. An inconsistency when one pion exchange is included in the production operator is demonstrated and then resolved via the introduction of "wave function corrections" which nearly vanish for static nucleon propagators. Inclusion of the recoil corrections to the nucleon propagators is found to change the magnitude and sign of the impulse production amplitude, worsening agreement with the experimental cross section by approximately 30%. A cutoff is used to account for the phenomenological nature of the external wave functions, and is found to have a significant impact up to approximately 2.5 GeV.Comment: Published versio

    Pion dominance in RPV SUSY induced neutrinoless double beta decay

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    At the quark level there are basically two types of contributions of R-parity violating SUSY (RPV SUSY) to neutrinoless double beta decay: the short-range contribution involving only heavy virtual superpartners and the long-range one with the virtual squark and neutrino. Hadronization of the effective operators, corresponding to these two types of contributions, may in general involve virtual pions in addition to the close on-mass-shell nucleons. It is known that the short-range contribution is dominated by the pion exchange. In the present paper we show that this is also true for the long-range RPV SUSY contribution and, therefore, the RPV SUSY contributes to the neutrinoless double beta decay dominantly via charged pion exchange between the decaying nucleons.Comment: 7 pages, 1 figure. Minor corrections, several comments and references adde

    Evaluation of the ππ\pi\pi scattering amplitude in the σ\sigma-channel at finite density

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    The ππ\pi\pi scattering amplitude in the σ\sigma-channel is studied at finite baryonic density in the framework of a chiral unitary approach which successfully reproduces the meson meson phase shifts and generates the f0f_0 and σ\sigma resonances in vacuum. We address here a new variety of mechanisms recently suggested to modify the ππ\pi\pi interaction in the medium, as well as the role of the s−s-wave selfenergy, in addition to the p−p-wave, in the dressing of the pion propagators.Comment: 26 pages, 17 figure
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