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The Center for Quantum Devices and Station Q Copenhagen is looking to hire one to three postdoctoral research fellows to work on realizing superconducting multi-qubit devices to function as a small quantum computer. The realization will be based on gatemon technology controlled by FPGA-based waveform generators. Projects ranging from nanofabrication, device testing, to building classical control electronics are available. Applicants should have a PhD in experimental physics or a masters or PhD in electrical Engineering.

We are inviting applications for both PhD and postdoctoral positions. The group aims to fill up to three positions until autumn 2016.

The successful candidates will work on interdisciplinary projects either within the field of compressed sensing or on quantum information theory. Within compressed sensing, our focus will lie on exploiting low-rank and bilinear structures. Relevant topics in the context of quantum information include many-body theory and topological order, aspects of computational complexity, and foundations of quantum mechanics.

We are currently seeking a postdoctoral fellow for a project related to the development of novel quantum protocols for secure computing. The position is a renewable one-year fellowship, and is available for immediate start or no later than 1 Sept 2016.

The Center for Quantum Devices is a basic research center supported by the Danish National Research Foundation, comprising materials research, experimental physics, nanoelectronics and condensed matter theory. Station Q Copenhagen is a research center sponsored by Microsoft Research aimed at developing topological quantum information processing hardware.

In the group of Prof. Uwe R. Fischer at Seoul National University, a position is open in the field of quantum metrological applications of many-body states including, in particular, those of ultracold quantum gases. Candidates with expertise both in the mathematical formulation of quantum metrology and the physics of interacting many-particle systems, e.g. quantum phase transitions and their correlation properties, are strongly preferred. They should be able to work analytically as well as numerically.

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