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Evidence for element 109 from one correlated decay sequence following the fusion of58Fe with209Bi

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Zeitschrift für Physik A Atoms and Nuclei

Abstract

An experiment to synthesize element 109 is presented. Decay patterns characteristic of complete fusion products were searched for in an irradiation of209Bi targets with58Fe projectiles at specific incident energies of 4.95, 5.05, and 5.15 MeV/u. A total dose of 7 ×1017 particles was obtained. The experimental method involves in-flight separation of forward peaked reaction products with a static-field velocity filter, their passage through a time-of-flight device and their final implantation into position sensitive solid state detectors to measure their kinetic energy, approximate mass and their time and position of incidence. The subsequent decay of the narrowly localised reaction products by cascades of alpha particles and/or spontaneous fission is also registered in terms of the energies and times of all the emitted particles. One outstanding decay sequence that started with the emission of two alpha particles within subsequent time intervals of 5 ms and 22 ms and ended with spontaneous fission after 13 s was found at 5.15 MeV/u. The first alpha particle had a kinetic energy of (11.10±0.04) MeV. A detailed analysis of all the alternative interpretations of this observation, such as a purely random correlation of signals, the decay of a product from a transfer reaction or of any of the various energetically possible evaporation residues, shows that the isotope with mass 266 of element 109, i.e. the one neutron evaporation channel after complete fusion, is the statistically most significant assignment. The outlook for new element synthesis is also briefly discussed.

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Author notes

  1. Y. K. Agarwal

    Present address: Tata Institute of Fundamental Research, Bombay, India

Authors and Affiliations

  1. Gesellschaft für Schwerionenforschung mbH, Darmstadt, Federal Republic of Germany

    G. Münzenberg, W. Reisdorf, S. Hofmann, Y. K. Agarwal, F. P. Heßberger, K. Poppensieker, J. R. H. Schneider, W. F. W. Schneider, K. -H. Schmidt, H. -J. Schött & P. Armbruster

  2. Technische Hochschule, Darmstadt, Federal Republic of Germany

    C. -C. Sahm & D. Vermeulen

Authors
  1. G. Münzenberg
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  2. W. Reisdorf
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  3. S. Hofmann
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  4. Y. K. Agarwal
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  5. F. P. Heßberger
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  6. K. Poppensieker
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  7. J. R. H. Schneider
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  8. W. F. W. Schneider
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  9. K. -H. Schmidt
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  10. H. -J. Schött
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  11. P. Armbruster
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  12. C. -C. Sahm
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  13. D. Vermeulen
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Additional information

The authors thank N. Angert and the UNILAC staff for the excellent performance of the accelerator. We are indebted to M. Müller and W. Jacoby for the development of the highly efficient sources for isotopically enriched material and H. Folger, W. Hartmann, and W. Thalheimer for the skilful preparation of the large area Bi-targets. Further we are indebted to the GSI experimental electronics group, namely M. Richter, for their helpful assistance. We also thank H.G. Burkhard who is in charge of the mechanical setups for the SHIP experiments.

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Münzenberg, G., Reisdorf, W., Hofmann, S. et al. Evidence for element 109 from one correlated decay sequence following the fusion of58Fe with209Bi. Z Physik A 315, 145–158 (1984). https://doi.org/10.1007/BF01419373

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  • DOI: https://doi.org/10.1007/BF01419373

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