26 research outputs found

    Study of interstrip gap effects and efficiency for full energy detection of Double Sided Silicon Strip Detectors

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    In this work is reported a study on the response of double sided silicon strip detectors. In order to investigate the eļ¬€ect of the electrode segmentation on the detector response, two experiments were performed aimed to measure the eļ¬ƒciency for full energy detection. Results show that the eļ¬ƒciency for full energy detection, that is directly related to eļ¬€ective width of the inter-strip region, varies with both detected ion energy and bias voltage. The experimental results are qualitatively reproduced by a simplified model based on the Shockley-Ramo-Gunn framework

    Structure of 24Mg excited states and their influence on nucleosynthesis

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    The main idea of the two presented experiments is to study the decay of resonances in 24Mg at excitation energies above the 12C+12C decay thresh- old, in the astrophysical energy region of interest. The measurement of the 12C(16O,Ī±)24Mg* reaction was performed at INFN-LNS in Catania. Only the Ī±+20Ne decay channel of 24Mg is presented here, because it was a motivation for conducting a new experiment, a study of the 4He(20Ne,4He)20Ne reaction, performed at INFN-LNL in Legnaro. Some preliminary results of this measurement are also presented

    Study of 24Mg resonances relevant to carbon burning nucleosynthesis

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    We have studied the decays of the resonances of 24Mg at excitation energies 1ā€“6 MeV above the 12C+12C decay threshold, using the 12C(16O,Ī±)24Mg* reaction at E(16O) = 94 MeV. Some preliminary results are presented and further analysis is in progress

    States in 10

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    In this contribution, an analysis of an experiment with the 30 and 52 MeV 7Li beam and the 7LiF and 6LiF targets is given, emphasizing population of cluster states by triton transfer to 7Li. Results concerning both reactions are given and discussed. Aside from the dominant Ī± + d structure in 6Li, a rather large overlap with 3He+t cluster configuration populates cluster states in 10Be by triton pick-up. A comparision with t pick-up from 7Li, resulting with detected Ī± instead of 3He, with a considerably higher Q-value is given. A special attention was paid to analysing and compensating non-uniformity of thicknes of standard 50 Ī¼m thin silicon detectors used in the measurement. Rather than measuring their thickness independantly, a method was derived to calculate and compensate the thickness variation directly from the measured data

    States in 10Be populated in 6,7Li( 7Li,3,4He)10Be* reactions at 30 and 52 MeV

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    In this contribution, an analysis of an experiment with the 30 and 52 MeV 7Li beam and the 7LiF and 6LiF targets is given, emphasizing population of cluster states by triton transfer to 7Li. Results concerning both reactions are given and discussed. Aside from the dominant Ī± + d structure in 6Li, a rather large overlap with 3He+t cluster configuration populates cluster states in 10Be by triton pick-up. A comparision with t pick-up from 7Li, resulting with detected Ī± instead of 3He, with a considerably higher Q-value is given. A special attention was paid to analysing and compensating non-uniformity of thicknes of standard 50 Ī¼m thin silicon detectors used in the measurement. Rather than measuring their thickness independantly, a method was derived to calculate and compensate the thickness variation directly from the measured data

    The

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    Different excited states of 13^{13}C populated in the 10^{10}B + 10^{10}B reactions at a beam energy of 72.2 MeV were investigated. The study revealed both well-known and new, or infrequently populated states. In particular, the inclusive excitation energy spectra showed the presence of most of the states belonging to the K = 3/2āˆ’^- rotational band that was proposed by several authors. Furthermore, a possibly new state at Ex_x = 19.0 MeV was strongly populated in the Ī±\alpha + 9^9Be coincidences. The measured state was found to have a well defined cluster structure. Additionally, so far unobserved Ī±\alpha -decay of the two rarely seen high-energy 13^{13}C states at 21.9 and 23.6 MeV is discussed

    Improvements in data analysis obtained by large-area silicon Ī”E - E detector telescopes

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    The paper describes a few practical methods for the analysis of data obtained by standard thin-thick silicon detector telescopes used in nuclear reaction measurements. The addressed issues are: 1) improvement in double-sided silicon strip detector (DSSSD) calibration based on the fact that each event is registered twice, both in horizontal and vertical strips, 2) improvements in particle identification and 3) simplified mapping of the non-uniformity of the thin detector, without a dedicated measurement of the thickness. The proposed procedures are applied on experimental data obtained for 30MeV 7Li beam induced reactions on LiF and C targets, studied with a detection setup consisting of four telescopes placed at different angles and distances. The proposed methods aim at quicker and more reliable calibration and particle identification

    Clusters in neutron-rich light nuclei

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    Due to their high selectivity, transfer and sequential decay reactions are powerful tools for studies of both single particle (nucleon) and cluster states in light nuclei. Their use is particularly simple for investigations of Ī±-particle clustering (because Ī±-particle has JĻ€=0+, which simplifies spin and parity assignments to observed cluster states), but they are also easily applicable to other types of clustering. Recent results on clustering in neutron-rich isotopes of beryllium, boron and carbon obtained measuring the 10B+10B reactions (at 50 and 72 MeV) are presented. The highly efficient and segmented detector systems used, built from 4 Double Sided Silicon Strip Detectors (DSSSD) allowed detection of double and multiple coincidences and, in that way, studies of states populated in transfer reactions, as well as their sequential decay

    Clusters in neutron-rich light nuclei

    No full text
    Due to their high selectivity, transfer and sequential decay reactions are powerful tools for studies of both single particle (nucleon) and cluster states in light nuclei. Their use is particularly simple for investigations of Ī±-particle clustering (because Ī±-particle has JĻ€=0+, which simplifies spin and parity assignments to observed cluster states), but they are also easily applicable to other types of clustering. Recent results on clustering in neutron-rich isotopes of beryllium, boron and carbon obtained measuring the 10B+10B reactions (at 50 and 72 MeV) are presented. The highly efficient and segmented detector systems used, built from 4 Double Sided Silicon Strip Detectors (DSSSD) allowed detection of double and multiple coincidences and, in that way, studies of states populated in transfer reactions, as well as their sequential decay
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