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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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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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achieve this, we will couple a single atom in an optical tweezer to a mecanical oscillator. On the way to this goal, we will advance the state-of-the-art in nanomechanics, optomechanics and cavity quantum
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and combine this with on-chip optical readout. These systems can be applied for biosensing and material characterization. The Hybrid Quantum Systems Laboratory is a new laboratory at Chalmers. We offer
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quantum transport theory and/or quantum thermodynamics and/or quantum optics. You should have a strong driving force to pursue excellent theoretical research in a collaborative environment. The position
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in U.K. and optical spectroscopy at Chalmers University of Technology. Furthermore, the PhD student will perform first-principles calculations and ab initio molecular dynamics to investigate
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applications based on an exciting new paradigm in quantum optics: giant atoms. Giant atoms couple to light at multiple points, which gives rise to interference effects. The succesful candidates will, in
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this field. You will be part of the Communication Systems Group at the Department of Electrical Engineering , which is known for its contributions to wireless and optical communication systems. The group has
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experimental research in a collaborative environment. The position requires sound verbal and written communication skills in English. Experience with quantum optics, quantum technology, superconducting device
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curiosity-driven and applied-research in the areas of optoelectronics, silicon photonics, and fiber-optic systems. We enjoy a state-of-the-art laboratory for fiber-optic communications and have access to in