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EU Marie-Curie Phd Student Opening: Collective Interaction of Small Ensembles of Superconducting Qubits with Microwave Frequency Radiation
The ETH Zurich Quantum Device Lab at the Department of Physics seeks to appoint a PhD student financed by the EU FP7-People Marie Curie Initial Training Network Circuit and Cavity Quantum Electrodynamics (CCQED).
Keywords: Physical sciences, fundamental and applied, cavity, circuit, electrodynamics, atom, photon, quantum optics, superconductivity, technology, lasers, fast electronics, feedback control, FPGA programming.
The Quantum Device Lab is one of the leading labs doing research on quantum optics and quantum information processing with superconducting circuits.
We are looking for a PhD student who will advance the state of the art of experimental research in the field of circuit quantum electrodynamics (QED). You have a strong background and deep interest in experimental and/or theoretical aspects of quantum optics and quantum information. In addition, you will actively contribute to the CCQED network by bridging two renowned disciplines in physics, namely the quantum electrodynamics of atoms or ions interacting with light in resonators, and the field of solid-state superconducting circuits. You will link fundamental to applied research, participate in the organization of conferences and establish bonds between theory and experiment.
For more information and a detailed job description see http://www.ccqed.eu/vacancies/eth-zurich/
For more information on our group see http://www.qudev.ethz.ch/
The Quantum Device Lab is one of the leading labs doing research on quantum optics and quantum information processing with superconducting circuits.
We are looking for a PhD student who will advance the state of the art of experimental research in the field of circuit quantum electrodynamics (QED). You have a strong background and deep interest in experimental and/or theoretical aspects of quantum optics and quantum information. In addition, you will actively contribute to the CCQED network by bridging two renowned disciplines in physics, namely the quantum electrodynamics of atoms or ions interacting with light in resonators, and the field of solid-state superconducting circuits. You will link fundamental to applied research, participate in the organization of conferences and establish bonds between theory and experiment.
For more information and a detailed job description see http://www.ccqed.eu/vacancies/eth-zurich/
For more information on our group see http://www.qudev.ethz.ch/
For more information and a detailed job description see http://www.ccqed.eu/vacancies/eth-zurich/
For more information and a detailed job description see http://www.ccqed.eu/vacancies/eth-zurich/
