Xenon

  • Data Storage Using Individual Molecules

    Graphic animation of a possible data memory on the atomic scale: A data storage element - consisting of only 6 xenon atoms - is liquefied by a voltage pulse. Universität Basel, Departement of Physics

    Researchers from the University of Basel have reported a new method that allows the physical state of just a few atoms or molecules within a network to be controlled. It is based on the spontaneous self-organization of molecules into extensive networks with pores about one nanometer in size. In the journal ‘small’, the physicists reported on their investigations, which could be of particular importance for the development of new storage devices.

  • FLASH observes exploding xenon nanoparticles

    With the bright X-ray flashes from FLASH the scientists made xenon clusters explode. The same flash allowed the researchers to record the structure of the cluster just before the explosion (top). With an ion spectrometer the scientists recorded the debris from the explosion (below). Credit: Daniela Rupp/Technical University of Berlin

    DESY’s X-ray laser offers new insights into the interaction between light and matter