Add to ORKGThe degree of coherence in a hybrid system composed of superconducting flux-qubits and an electron ensemble is analysed. Both, the interactions among the electrons and among the superconducting flux-qubits are taken into account. The time evolution of the hybrid system is solved exactly, and discussed in terms of the reduced density matrix of each subsystem. It is seen that the inclusion of a line width, for the electrons and for the superconducting flux-qubits, influences the pattern of spin-squeezing and the coherence of the superconducting flux qubits.Facultad de Ciencias ExactasInstituto de Física La Plat
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This thesis consists of two parts: the main part is a theoretical investigation of the ultrastrong c...
The degree of coherence in a hybrid system composed of superconducting flux-qubits and an electron e...
The persistence of coherence of a system of superconducting flux-qubits, in the presence of an ensem...
condensed matter physics and quantum optics, have in the last years come closer and closer to each o...
International audienceWe present measurements of superconducting flux qubits embedded in a three dim...
Superconducting quantum devices have drawn the attention of physicists greatly in recent years, not ...
A quantum computer will potentially solve far-reaching problems which are currently intractable on a...
Quantum bits (qubits) are at the heart of quantum information processing schemes. Currently, solid-s...
A major problem facing the realisation of scalable solid-state quantum computing is that of overcomi...
International audienceWe present a theoretical proposal to couple a single nitrogen-vacancy (NV) cen...
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This thesis consists of theoretical studies of superconducting qubits, and trapped bosons and fermio...
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