Joint Nuclear Astrophysics Seminar

Europe/Berlin
Almudena Arcones (TU Darmstadt / GSI) , Camilla Juul Hansen (University of Heidelberg, ZAH) , Iris Dillmann (Justus Liebig Universität/ GSI Darmstadt)
Description
Nuclear astrophysics is an interdisciplinary field and this makes it so fascinating, but also renders the communications between different fields. We would like to introduce a seminar series with the goal of sharing knowledge and vocabulary among nuclear physicists, astrophysicists, and observers in an open atmosphere full of discussions and questions.
A dedicated interdisciplinary seminar on these topics does not exist in the Darmstadt-Frankfurt-Mainz-Giessen-Heidelberg region. However, we are aware about the large number of seminars and colloquia around, therefore this nuclear astrophysics seminar will take place only once per month and be advertised broadly.
Since some of the people would have to travel we will have two talks  (starting at 16:00) with the possibility of going for dinner together and continue the discussions.
We really think these kind of seminars can foster future collaborations in the region. The third seminar takes place at the University of Giessen, Heinrich-Buff-Ring 16, room 511 (5th floor). A map can be found here.
    • 16:00 17:00
      JoNAS 3: New Modes of Nuclear Excitations for Astrophysics (Nadia Tsoneva, JLU Giessen)

      The precise knowledge of nuclear response functions plays a key role in the determination of photonuclear reactions cross sections which are of importance for the nucleosynthesis of heavier elements. In this connection information on low-energy excitations located around the neutron threshold is needed.
      Recently, new low-energy modes called pygmy resonances which reveal new aspects on the isospin dynamics of the nucleus have been observed. Their distinct feature is the close connection to nuclear skin oscillations which become visible in transition densities and currents.
      Here, we present our theoretical approach based on density functional theory and microscopic multi-phonon model which is applied for investigations of pygmy resonances and higher-lying excitations with different multipolarities in stable and exotic nuclei. The possible relation of low-energy modes to the properties of neutron or proton skins is systematically investigated for isotonic and isotopic chains.
      The fine structure of nuclear electric and magnetic response functions is analyzed in comparison to experimental data. The relevance to nuclear astrophysics is discussed.

    • 17:15 18:15
      HIC4FAIR colloquium: Precision mass measurements of rare short-lived isotopes for nuclear physics (Jens Dilling, TRIUMF/ Canada)

      The atomic mass is a fundamental property and links directly and uniquely the binding energy to all effective forces that hold the atom together. In fact, the Nobel Prize awarded Nuclear Shell model was developed only after mass measurements indicated ‘magic’ behavior, which could not be explained with the existing theories at the time. Today, mass measurements are possible at far more isotopes and much more exotic isotopes can be accessed. Moreover, atomic masses are important parameters in nuclear astrophysics, for example for production paths of the chemical elements in stellar object. However, for the measurements, rare short-lived isotopes are required.
      At present, one of the premier facilities for rare isotopes is the ISAC accelerator complex at TRIUMF, Vancouver, Canada.
      The TITAN (TRIUMF’s Ion Trap for Atomic and Nuclear science) was developed to carry out mass measurements of very short-lived isotopes but maintaining high precision and accuracy. The measurement is carried out using a Penning ion trap, and storing one or a few ions in the trap for the experiment. In this way, some of the most exotic isotopes at any rare beam facility have been measured, and a world record in shortest half-life was achieved. I will give an overview of the TITAN program and how it links to answering some of the big questions in science, and present some resent research highlights.