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characterization of semiconductor materials. The department hosts the research group of Prof Vanya Darakchieva. Together with its co-operating partners, the group has developed in recent years THz ellipsometry and
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Terahertz (THz) is a rapidly expanding field with notable importance for a myriad of disciplines such as physics, chemistry and biology. In the context of material science, optical-pump terahertz
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– THz-emission probe experiments to measure relative arrival time between the X‑ray and optical laser pulses using an existing apparatus to improve the time resolution of user experiments Coordinate with
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Intelligent Surfaces, as well as transmission in the mmWave / THz range with high directivity for short range scenarios, could provide such security advantages, allowing in particular to make the case
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terahertz (THz) radiation and the collective vibrational modes of biological macromolecules is an emerging field in physical chemistry. Terahertz radiation can be exploited to studying spectroscopic and
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interaction, eye-tracking, optoelectronic and photonic solutions used in vision systems and displays (e.g., head-mounted displays with advanced optics, THz imaging systems) will be considered an asset. Specific
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multilayer systems has led to a deep understanding of acoustic phonons in such structures. However, the development of phononic devices operating in the GHz–THz range remains an open area, offering
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semiconductor processing, microscopy, quantum technologies, heterogeneous integration, ultra-high speed optical communications and RF through THz characterisation. A substantial research start-up package is
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: electron cyclotron masers, high-power sub-THz sources. •Astrophysics: solar physics, star and planet formation, compact objects, high-energy astrophysics. •Experimental and Theoretical Particle Physics
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—the quanta of lattice vibrations—are key carriers of energy and information, much like photons and electrons. This project explores the emerging field of nanophononics, focusing on the manipulation of GHz–THz