Energiewende

Abkehr von der Kernenergie, Ausbau von Solar- und Windkraft, Energiegewinnung aus Biomasse, Senkung des Energieverbrauchs. Bis 2050 soll die Schweiz klimaneutral werden. Ein ehrgeiziges Ziel, welches durch die zunehmend herausfordernde geopolitische Lage dringlicher denn je geworden ist. Wie lässt sich in den nächsten Jahren eine nachhaltige und widerstandsfähige Energieversorgung für die Schweiz aufbauen? Wie können erneuerbare Energien optimal genutzt werden? Welche neuen Technologien sind besonders vielversprechend? Am PSI suchen Forschende nach Antworten auf diese entscheidenden Fragen.

Building blocks

Building blocks of an artificial kagome spin ice: Photoemission electron microscopy of arrays of ferromagnetic islands

Arrays of dipolar coupled ferromagnetic islands arranged in specific geometries provide ideal systems to
directly study frustration. We have examined with photoemission electron microscopy the magnetic configurations
in three basic building blocks of an artificial kagome spin ice consisting of one, two, and three rings.
The kagome spin ice arrangement is particularly interesting because it is highly frustrated and the three

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Super-Resolution X-ray Microscopy unveils the buried secrets of the nanoworld

A novel super-resolution X-ray microscope developed by a team of researchers from the Paul Scherrer Institut (PSI) and EPFL in Switzerland combines the high penetration power of x-rays with high spatial resolution, making it possible for the first time to shed light on the detailed interior composition of semiconductor devices and cellular structures.
The first super-resolution images from this novel microscope will be published online July 18, 2008 in the journal Science.

Nanoscale depth resolution of lattice dynamics

We employ grazing-incidence femtosecond x-ray diffraction to characterize the coherent, femtosecond laser-induced lattice motion of a bismuth crystal as a function of depth from the surface with a temporal resolution of ~200 fs. The data show direct consequences on the lattice motion from carrier diffusion and electron-hole interaction, allowing us to estimate the effective diffusion rate for the highly excited carriers and the electron-hole interaction time.

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Coherent Diffraction Imaging Using Phase Front Modifications

We introduce a coherent diffractive imaging technique that utilizes multiple exposures with modifications to the phase profile of the transmitted wave front to compensate for the missing phase information.

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X-ray dark-field imaging using a grating interferometer

A type of X-ray imaging that shows detail otherwise lost, and which is compatible with conventional radiography instrumentation is now feasible, reports a study published online in Nature Materials. This technique offers unprecedented resolution for several applications, including medical imaging, security screening and industrial non-destructive testing.