67 research outputs found

    Pion interaction with the trinucleon up to the eta production threshold

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    Pion elastic, charge exchange scattering and induced eta production on the trinucleon systems are investigated in a coupled-channels approach in momentum space with Fadeev wave functions. The channel πNηN\pi N \rightarrow \eta N is included using an isobar model with S-, P-, and D-wave resonances. While the coherent reactions like 3^3He(π,π)3\pi,\pi)^3He can be reasonably well reproduced up to TπT_{\pi}=500 MeV, large discrepancies appear for the incoherent processes, 3^3He(π,π0)3\pi^-,\pi^0)^3H and 3^3He(π,η)3\pi^-,\eta)^3H at backward angles and energies above Δ\Delta-resonance. In the forward direction the (π,η)(\pi,\eta) calculations underestimate the experimental measurements very close to threshold but agreement with the data improves with increasing pion energy. Predictions are made for the asymmetries of the various reactions on polarized 3^3He.Comment: 40 pages, 12 figures (available from the authors), Mainz preprint MKPH-T-92-1

    Jastrow-type calculations of one-nucleon removal reactions on open ss-dd shell nuclei

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    Single-particle overlap functions and spectroscopic factors are calculated on the basis of Jastrow-type one-body density matrices of open-shell nuclei constructed by using a factor cluster expansion. The calculations use the relationship between the overlap functions corresponding to bound states of the (A1)(A-1)-particle system and the one-body density matrix for the ground state of the AA-particle system. In this work we extend our previous analyses of reactions on closed-shell nuclei by using the resulting overlap functions for the description of the cross sections of (p,d)(p,d) reactions on the open ss-dd shell nuclei 24^{24}Mg, 28^{28}Si and 32^{32}S and of 32^{32}S(e,ep)(e,e^{\prime}p) reaction. The relative role of both shell structure and short-range correlations incorporated in the correlation approach on the spectroscopic factors and the reaction cross sections is pointed out.Comment: 11 pages, 5 figures, to be published in Phys. Rev.

    Bulk ion heating with ICRH in JET DT plasmas

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    Reactor relevant ICRH scenarios have been assessed during DT experiments on the JET tokamak using H mode divertor discharges with ITER-like shapes and safety factors. Deuterium minority heating in tritium plasmas was demonstrated for the first time. For 9% deuterium, an ICRH power of 6 MW gave 1.66 MW of fusion power from reactions between suprathermal deuterons and thermal tritons. The Q value of the steady state discharge reached 0.22 for the length of the RF flat-top (2.7 s), corresponding to three plasma energy replacement times. The Doppler broadened neutron spectrum showed a deuteron energy of 125 keV, which was optimum for fusion and close to the critical energy. Thus, strong bulk ion heating was obtained at the same time as high fusion efficiency. Deuterium fractions around 20% produced the strongest ion heating together with a strong reduction of the suprathermal deuteron tail. The ELMs had low amplitude and high frequency and each ELM transported less plasma energy content than the 1% required by ITER. The energy confinement time, on the ITERH97-P scale, was 0.90, which is sufficient for ignition in ITER. 3He minority heating, in approximately 50:50 D:T plasmas with up to 10% 3He, also demonstrated strong bulk ion heating. Central ion temperatures up to 13 keV were achieved, together with central electron temperatures up to 12 keV. The normalized H mode confinement time was 0.95. Second harmonic tritium heating produced energetic tritons above the critical energy. This scheme heats the electrons in JET, unlike in ITER where the lower power density will allow mainly ion heating. The inverted scenario of tritium minority ICRH in a deuterium plasma was demonstrated as a successful heating method producing both suprathermal neutrons and bulk ion heating. Theoretical calculations of the DT reactivity mostly give excellent agreement with the measured reaction rates

    NEW DIRECTIONS OF X-RAY SPECTROSCOPY APPLIED TO HOT, LOW DENSITY PLASMAS

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    X-ray spectroscopy has frequently been used as a major tool for diagnosing the center hot part of fusion plasmas. High resolution X-ray line spectra and broad band X-ray emission spectra are used to deduce ion temperatures and impurity concentrations in the plasma. X-ray lines mostly studied are the n=2 to 1 transitions produced by electron impact excitation. However, time resolved spectra observed during the full plasma discharge have shown the importance of other excitation mechanisms. These new results are discussed and implications towards next generation of X-ray instrumentation in plasma diagnostics is outlined

    ON X-RAY SPECTRAL LINES OF HIGH n RYDBERG TRANSITIONS IN Ar16+ OBSERVED FROM A TOKAMAK PLASMA

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    The He-like spectrum of 1s2 - 1snp transitions and satellites in Ar16+ have been measured from the plasma of the Alcator C tokamak. In the wavelength region of λ = 3.0 to 3.4 Å, three groups of satellite lines 1s22σ - 1s2σ nl are observed which accompany each of the resonance lines emanating from the upper orbitals from n = 4 to n = 10. Results of new calculations are presented and used for identification of the observed spectra and for discussion of line intensities and wavelengths. All satellite lines belonging to the high n states observed (n = 4 to n = 10) have been identified in the calculations
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