Program summer term 2019
Monday, April 15, 2019, 4:15pm, Hörsaal 28 D 001
Malte Göttsche (RWTH Aachen University)
Nuclear weapon control
Today, there exist over 14,000 nuclear weapons, and large weapons-usable fissile material stocks allowing the production of many more. To enable international agreements on warhead and fissile material reductions, a strong verification regime is essential. This requires both policy and physics research, as new verification concepts and techniques will be required. On the one hand, radiation detection techniques suited to establish the authenticity of nuclear warheads to be dismantled must be developed. On the other hand, new concepts are required to estimate the amount of produced weapons-usable fissile materials. This is the purpose of nuclear archaeology, which attempts to reconstruct the past fissile material production using measurements in shut-down nuclear facilities and extensive simulations.
Monday, April 29, 2019, 4:15pm, Hörsaal 28 D 001
Prof. Andreas Offenhäusser (FZ Jülich)
Mind the gap – design and characterization of the neuroelectronic interface
Nowadays, the best approach for longterm studies of the electrophysiological activity of neurons in vitro and in vivo is based on planar microelectrode arrays (MEA) or field-effect transistors (FET). These devices are also relevant for neuronal implants where they can restore lost sensory function, be part of a brain controlled machine interface or act as electronic alternatives to pharmaceuticals. However, the weak coupling between cell membrane and electrode surface is one of the major limiting factors and technology of 3D nanostructures for cell-chip coupling is currently a vivid field of investigation. Our present study focuses on the investigation of cell-chip interfaces with in various geometries, from planar structures to optimized 3D nanoelectrodes for extracellular recordings and stimulations.
Monday, May 13, 2019, 4:15pm, Hörsaal 28 D 001
Prof. Thomas Zentgraf (University of Paderborn)
Holographic metasurfaces: A new route to information encryption and multiplexing
Optical components often rely on the refraction at geometrically shaped interfaces or spatial modulation of the phase during the propagation of light. Both effects, however, require a variation of the refractive index in three-dimensional space and lead to optical elements that are significantly thicker than the wavelength. New approaches with artificially structured materials along a surface, so-called metasurfaces, open exciting possibilities for the realization of compact optical elements. The flexibility in the design and manufacturing of optical metasurfaces allows to control the propagation of light to a high degree of freedom. Metasurfaces have the advantage that they can provide full control over light propagation with relatively low manufacturing costs and no requirements on complex three-dimensional nanofabrication techniques. The talk will provide an overview of the concept of geometric-phase metasurfaces and show recent developments in the field of beam shaping and holography.
Monday, May 27, 2019, 4:15pm, Hörsaal 28 D 001
Prof. Licia Verde (University of Barcelona)
Monday, June 17, 2019, 4:15pm, Hörsaal 28 D 001
Prof. Klaus Kirch (Paul Scherrer Institute)