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is anticipated to surpass the classical network in both computing power and security. As a fundamental component of the classical network, the adaptable optical fiber communication network must take on
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clocks, but it also heralds a new generation of quantum optical clocks, whereby the frequency reference (and hence time) is derived from an optical transition instead of microwave. As a result of this four
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levels become extremely sharp and well defined. This technology has not only improved on the current microwave clocks, but it also heralds a new generation of quantum optical clocks, whereby the frequency
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crystal devices and test cells, using a large variety of different processing and analytic tools. Optic and electrooptic studies using polarized light microscopy, and basic electronics equipment will be
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different processing and analytic tools. Optic and electrooptic studies using polarized light microscopy, and basic electronics equipment will be fundamental for the experimental work. Depending on
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field. Up to one-million optical modes have been entangled in CV, which represents a striking progress with respect to DV systems, where only (roughly) hundreds of qubits can be entangled nowadays. Beyond
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, ultrafast optics and fiber-optical communication. A strong research focus is on ultraviolet (UV) and blue surface-emitting devices, such as vertical-cavity surface-emitting lasers (VCSELs), photonic-crystal
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Our modern "connected world" is powered by a vast infrastructure of fiber-optic cables that connect cities, countries, and continents (see, for example, submarinecablemap.com ). Such cables provide
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expertise in some of the following: design and fabrication of superconducting circuits, experimental quantum computing, microwave quantum optics, or related fields in experimental physics • Your verbal and
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students and postdocs. The CS group is internationally known for its academic research in wireless systems, fiber-optical communications, coding, information theory, and machine learning. We provide