Explore the words cloud of the Super MagneFiQuE project. It provides you a very rough idea of what is the project "Super MagneFiQuE" about.
The following table provides information about the project.
TECHNISCHE UNIVERSITEIT DELFT
|Coordinator Country||Netherlands [NL]|
|Total cost||260˙929 €|
|EC max contribution||260˙929 € (100%)|
1. H2020-EU.1.3.2. (Nurturing excellence by means of cross-border and cross-sector mobility)
|Duration (year-month-day)||from 2015-10-01 to 2018-09-30|
Take a look of project's partnership.
|1||TECHNISCHE UNIVERSITEIT DELFT||NL (DELFT)||coordinator||260˙929.00|
|2||YALE UNIVERSITY||US (NEW HAVEN)||partner||0.00|
In superconducting quantum electronics, or superquantronics, macroscopic degrees of freedom, like currents and voltages, can exist in a quantum mechanical superposition. This macroscopic quantum coherence has led to the development of circuits behaving as atoms. An exciting new field of research is circuit-based quantum electrodynamics (cQED), in which these artificial atoms are placed in cavities to perform quantum optics in the microwave regime. This cQED architecture is arguably the most promising platform for realizing a full-scale quantum computer. However, a major draw-back of the circuits used for cQED today, which contain aluminum films, is that superconductivity is lost upon applying strong magnetic fields. This limitation poses a fundamental obstacle to interfacing superquantronic circuits with other quantum systems that rely on these strong magnetic fields for their operation. By forming such hybrid systems, new technologies can be developed, such as long term quantum memories for superconducting qubits using highly coherent solid-state spin ensembles, or a topological quantum computer using Majorana Fermions. The goal of this proposal is to realize magnetic-field compatible superquantronic circuits for the cQED architecture. A promising new approach is to combine magnetic-field compatible superconducting materials with semiconducting nanowires to build new circuit elements. We plan to develop circuits using these new elements and demonstrate the coherent operation of an artificial atom in cQED in the presence of a strong magnetic field. The magnetic-field compatible superquantronic circuits we will develop, provide a unique platform to create and study new quantum devices. This fellowship, along with his previous research experience with a wide range of quantum systems, will allow the applicant to define new research directions in fundamental physics and experimental quantum information science, by developing new hybrid quantum systems.
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The information about "SUPER MAGNEFIQUE" are provided by the European Opendata Portal: CORDIS opendata.
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