We report on real molecular complexes and propose strategies that explore the possibility of implementation of specific quantum computation architectures with molecular spin systems. We focus on Cr3+ carboxylate derivatives and use the Loss - DiVincenzo scheme as reference
Here we show that the spin coherence of the sandwich complex [CpTi(cot)] survives for tens of ms at ...
Nuclear magnetic resonance (NMR) is a spectroscopic method that can be applied to several areas. Cur...
The field of quantum information processing aims to leverage the unique physics of quantum mechanics...
We report on real molecular complexes and propose strategies that explore the possibility of impleme...
We present our recent progresses on the implementation of qubits with molecular-spin clusters. Here,...
Molecular spin clusters are mesoscopic systems whose structural and physical features can be tailore...
Spins in solids or in molecules possess discrete energy levels, and the associated quantum states ca...
Resumen del trabajo presentado al Simposio Internacional de Tecnologías Cuánticas (International Sym...
The inherent atomistic precision of synthetic chemistry enables bottom-up structural control over qu...
The inherent atomistic precision of synthetic chemistry enables bottom-up structural control over qu...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
The implementation of quantum computation (QC) would revolutionize scientific fields ranging from en...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The great success of point defects and dopants in semiconductors for quantum information processing ...
This thesis details the development of quantum chemical methods for the accurate theoretical descrip...
Here we show that the spin coherence of the sandwich complex [CpTi(cot)] survives for tens of ms at ...
Nuclear magnetic resonance (NMR) is a spectroscopic method that can be applied to several areas. Cur...
The field of quantum information processing aims to leverage the unique physics of quantum mechanics...
We report on real molecular complexes and propose strategies that explore the possibility of impleme...
We present our recent progresses on the implementation of qubits with molecular-spin clusters. Here,...
Molecular spin clusters are mesoscopic systems whose structural and physical features can be tailore...
Spins in solids or in molecules possess discrete energy levels, and the associated quantum states ca...
Resumen del trabajo presentado al Simposio Internacional de Tecnologías Cuánticas (International Sym...
The inherent atomistic precision of synthetic chemistry enables bottom-up structural control over qu...
The inherent atomistic precision of synthetic chemistry enables bottom-up structural control over qu...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
The implementation of quantum computation (QC) would revolutionize scientific fields ranging from en...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The great success of point defects and dopants in semiconductors for quantum information processing ...
This thesis details the development of quantum chemical methods for the accurate theoretical descrip...
Here we show that the spin coherence of the sandwich complex [CpTi(cot)] survives for tens of ms at ...
Nuclear magnetic resonance (NMR) is a spectroscopic method that can be applied to several areas. Cur...
The field of quantum information processing aims to leverage the unique physics of quantum mechanics...
DOI
Add to ORKG