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spectroscopic approach, based on the electronic synchronization of multiple, brand new custom-made femtosecond and nanosecond laser systems. We will probe ultrafast changes in the ground and excited states of a
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required. Essential skills for this role include the ability to design, assemble, and align optical setups built around femtosecond pulsed lasers, integrate such setups with measurement instrumentation
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physics and materials research Your Tasks In-house research in the fields of spintronics/magnetisation dynamics/topological phases. Installation and further development of an existing femtosecond laser
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nanocluster materials. Core Responsibilities will include: Femtosecond spectroscopy and cryogenic measurements of atomically precise nanoclusters and assembled materials. Quantum emitting properties
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assembly of nanomaterials is a plus but not required. Essential skills for this role include the ability to design, assemble, and align optical setups built around femtosecond pulsed lasers, integrate
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elements. These elements will be fabricated in glass using precision femtosecond laser machining that employs adaptive optics to correct aberrations induced when focusing into the substrate. You should
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of processes selected from the following: additive manufacturing (to yield micro-structures), subtractive processes based on electrochemical etching and photolithography and finally femtosecond laser ablation
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the development of a complex ultrafast multipulse spectroscopic approach, based on the electronic synchronization of multiple, brand new custom-made femtosecond and nanosecond laser systems. We will probe ultrafast
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efficiency of potential future magnonic devices. The postdoc should have a background in experimental condensed matter physics and experience with femtosecond optical lasers or x-ray facilities.
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of molecules, called chirality, to resolve the enconded conformational dynamics with femtosecond time resolution [1]. This has opened the path to resolve the structural dynamics of (bio-)molecular systems [2