#COHERENT X RAY UPGRADE#
This group will aim to be a platform for realizing research concepts toward beamline upgrades in parallel with the SPring-8 upgrade by sharing information about outcomes and the techniques of using coherent x rays. However, the sharing of the information about the outcomes and the techniques of using coherent x rays has been insufficient to date. Therefore, the wide use of coherence by general users in the field of materials science has become likely. X rays with significant temporal and spatial coherence have enabled us to to perform experiments using this coherence with the appearance of 3rd-generation synchrotron light sources, and the necessary measurement techniques and analysis methods have been developed at a fast pace. Overview of Research Group, Goals and Purposes: We also support travel to and participation in international schools and conferences.1-1-1 Kouto, Sayo-cho, Sayo-gun, Hyogo 679-5148, JAPANįundamental Characterization, Measurements While the bulk of your lab and teaching activity will be on the ETH Hoenggerberg campus, the x-ray-based experiments will be performed at the nearby Paul Scherrer Institute and a variety of international facilities in places such as Germany, the USA, Japan, and South Korea.
As a PhD student, you will be able to enroll in a wide variety of courses to deepen your knowledge of science and engineering, as well as to take advantage of career mentoring resources. Our team is highly multicultural and offers flexible working arrangements. We combine this unique source with state-of-the-art ultrafast laser technologies in other wavelength ranges extending from optical to THz, which allows us to study how materials can be manipulated by coherent light pulses.
#COHERENT X RAY FREE#
A unique feature of our group is a strong connection with the SwissFEL free electron laser, which offers world-leading capabilities to use femtosecond and even attosecond pulses of x-rays to construct atomic-scale "movies" of how materials evolve in real-time. The ultrafast dynamics group is focused on the study of highly nonequilibrium dynamics in solid-state systems, with the aims to better understand and even control the properties of materials with higher speeds and efficiencies that is possible using more conventional methods. You will also be required to contribute to the teaching of bachelor-level and master-level students in the framework of course assistance and the supervision of short projects. Your tasks will extend also to the modelling and interpretation of the resulting data in collaboration with others, and the preparation of scientific publications based on this work. You will also be expected to contribute significantly to x-ray-based measurements of time-resolved dynamics at large-scale facilities, which may involve travel abroad. You will be expected to understand and apply a range of concepts from modern optics to the generation and use of ultrashort pulses with frequencies ranging from the THz to PHz (optical) regimes. This position requires the design, construction, modification, and use of ultrafast laser pump-probe setups to perform time-resolved studies on a variety of perovskite materials, under the supervision and guidance of experienced researchers.
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