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- Institute of Photonic Sciences
- Autonomous University of Madrid (Universidad Autónoma de Madrid)
- Fundación IMDEA Nanociencia
- ICFO - The Institute of Photonic Sciences
- Institute for bioengineering of Catalonia, IBEC
- Institute of Chemical Research of Catalonia ICIQ
- UNIVERSIDAD DE ZARAGOZA
- UNIVERSIDAD POLITECNICA DE MADRID
- Universitat de Barcelona
- University of Barcelona
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Field
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combining biophysics, molecular biology, optical trapping, NMR spectroscopy, microfluidics, and neurophysiology to uncover a fundamentally new mechanism of sensory adaptation in neurons. Biomolecular
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tracking. Specifically, advance photocurrent detected broad-band ultrafast micro-spectroscopy, towards nonlinear current/fluorescence detected multidimensional micro-spectroscopy. Contribute to publications
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) of these materials. Where to apply Website https://sede.unizar.es/?app=touz&opcion=mostrar&id=73125 Requirements Research FieldPhysicsEducation LevelPhD or equivalent Specific Requirements Expert in Transmission
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optoelectronic characterization of ferroelectric domains and excitonic properties, including micro-photoluminescence, Raman spectroscopy, SHG, and near-field optical methods. Investigation of ferroelectric domain
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. Incorporation of these species into polymer matrices to produce photoluminescent materials. Characterization of such materials and molecular species by nuclear magnetic resonance, infrared spectroscopy, and
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related with the optical lasers Experience with ultrafast lasers Experience in laser spectroscopy High level of English, both oral and written Communication capabilities in English Ability to work in a team
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scientists by offering high-quality educational programs to master, PhD students and postdoctoral researchers (full details in https://iciq.org/careers/ ). Short Project description: This project aims
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ICFO’s Attoscience and Ultrafast Optics group works in a highly interdisciplinary field which fuses ultrafast laser physics, extreme nonlinear optics, atomic and molecular physics, SXR spectroscopy
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their structural and optical characterization by using atomic force microscopy (AFM), scanning electron microscopy (SEM), x-ray diffraction (XRD), and photoluminescence spectroscopy (PL). The research will be
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. Our group combines state-of-the-art methods in experimental ultrafast spectroscopy and molecular dynamics simulations: We develop and apply novel ultrafast spectroscopic methods aimed at uncovering how