Superheavy element studies with preseparated isotopes

@inproceedings{Dllmann2011SuperheavyES,
  title={Superheavy element studies with preseparated isotopes},
  author={C. D{\"u}llmann},
  year={2011}
}
  • C. Düllmann
  • Published 2011
  • Chemistry
    • Abstract In recent years, significant progress in the field of superheavy element research has been achieved thanks to a novel combination of techniques from different fields. This “physical preseparation” approach includes the coupling of an ancillary setup – typically a chemistry apparatus or a counting setup – to a physical recoil separator. This latter preseparator removes unwanted nuclear reaction products as well as the intense heavy-ion beam associated with superheavy element experiments… CONTINUE READING
    View via Publisher
    degruyter.com
    13 Citations
    Background Citations
    1
    Methods Citations
    4

    Figures and Tables from this paper

    Figures and Tables

    13 Citations
    Citation Type

    Citation Type

    Chemistry of superheavy elements
    • 42
    • PDF
    de Chemistry of the superheavy elements
    • PDF
    Chemistry of the superheavy elements
    • M. Schaedel
    • Physics, Medicine
    • Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
    • 2015
    • 24
    • PDF
    Synthesis of Superheavy Elements
    • 6
    Preparation of actinide targets for the synthesis of the heaviest elements
    • 29
    EC decay of 244Bk
    • 3
    From SRAFAP to ARCA and AIDA – developments and implementation of automated aqueous-phase rapid chemistry apparatuses for heavy actinides and transactinides
    • 1
    Discovery of the Transuranium Elements Inspired Rearrangement of the Periodic Table and the Approach for Finding New Elements
    • 1
    In-situ formation, thermal decomposition, and adsorption studies of transition metal carbonyl complexes with short-lived radioisotopes
    • 21
    • PDF
    In situ synthesis of volatile carbonyl complexes with short-lived nuclides
    • 10

    References

    SHOWING 1-10 OF 74 REFERENCES
    Superheavy element chemistry at GSI – status and perspectives
    • 31
    Gas phase chemical studies of superheavy elements using the Dubna gas-filled recoil separator - Stopping range determination
    • 35
    Startup of superheavy element chemistry at RIKEN
    • 11
    The recoil transfer chamber—An interface to connect the physical preseparator TASCA with chemistry and counting setups
    • 23
    Chemistry of superheavy elements.
    • 171
    • PDF
    Heavy-ion-induced production and physical preseparation of short-lived isotopes for chemistry experiments
    • 36
    • PDF
    Relativistic Quantum Chemistry of the Superheavy Elements. Closed-Shell Element 114 as a Case Study
    • 16
    • PDF
    First Superheavy Element Experiments at the GSI Recoil Separator TASCA: The Production and Decay of Element 114 in the 244Pu(48Ca,3-4n) Reaction
    • 95
    • PDF
    Sassy, a gas-filled magnetic separator for the study of fusion reaction products
    • 67
    Status of heavy element research using GARIS at RIKEN
    • 52