We present our recent progresses on the implementation of qubits with molecular-spin clusters. Here, we focus on molecular linkers, made of Ru dimers with different electronic states and designed to couple two Cr7Ni molecular rings with spin S = 1 / 2 as ground state. © 2006 Elsevier B.V. All rights reserved
Artificial magnetic molecules can host several spin qubits, which could then implement small-scale a...
International audienceWe present a synthetic, structural, theoretical, and spectroscopic study of a ...
The physical implementation of quantum information processing (QIP) is an emerging field that requir...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
Molecular spin clusters are mesoscopic systems whose structural and physical features can be tailore...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The ability to assemble weakly interacting subsystems is a prerequisite for implementing quantum inf...
Proposals for systems embodying condensed matter spin qubits cover a very wide range of length scale...
We report on real molecular complexes and propose strategies that explore the possibility of impleme...
Spins in solids or in molecules possess discrete energy levels, and the associated quantum states ca...
Supramolecular chemistry enables nanoscale engineering of scalable structures,by introducing contro...
Resumen del trabajo presentado al Simposio Internacional de Tecnologías Cuánticas (International Sym...
We present recent achievements and perspectives for the encoding of qubitswith molecular spin cluste...
Quantum information processing (QIP) would require that the individual units involved--qubits--commu...
We report an in-depth study on how spin information propagates at supramolecular scale through afami...
Artificial magnetic molecules can host several spin qubits, which could then implement small-scale a...
International audienceWe present a synthetic, structural, theoretical, and spectroscopic study of a ...
The physical implementation of quantum information processing (QIP) is an emerging field that requir...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
Molecular spin clusters are mesoscopic systems whose structural and physical features can be tailore...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The ability to assemble weakly interacting subsystems is a prerequisite for implementing quantum inf...
Proposals for systems embodying condensed matter spin qubits cover a very wide range of length scale...
We report on real molecular complexes and propose strategies that explore the possibility of impleme...
Spins in solids or in molecules possess discrete energy levels, and the associated quantum states ca...
Supramolecular chemistry enables nanoscale engineering of scalable structures,by introducing contro...
Resumen del trabajo presentado al Simposio Internacional de Tecnologías Cuánticas (International Sym...
We present recent achievements and perspectives for the encoding of qubitswith molecular spin cluste...
Quantum information processing (QIP) would require that the individual units involved--qubits--commu...
We report an in-depth study on how spin information propagates at supramolecular scale through afami...
Artificial magnetic molecules can host several spin qubits, which could then implement small-scale a...
International audienceWe present a synthetic, structural, theoretical, and spectroscopic study of a ...
The physical implementation of quantum information processing (QIP) is an emerging field that requir...
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