We propose a scheme for the implementation of quantum gates which is based on the qubit encoding inantiferromagnetic molecular rings.We show that a proper engineering of the intercluster link would resultin an effective coupling that vanishes as far as the system is kept in the computational space, while it isturned on by a selective excitation of specific auxiliary states. These are also shown to allow theperforming of single-qubit and two-qubit gates without an individual addressing of the rings by meansof local magnetic fields
Molecular magnets have been demonstrated to be promising candidates for quantum-coherent nanodevices...
Quantum systems displaying many accessible levels could be very powerful units of forthcoming quantu...
Hybrid quantum registers, such as electron-nuclear spin systems, have emerged as promising hardware ...
We propose a scheme for the implementation of quantum gates which is based on the qubit encoding ina...
We propose a scheme for the implementation of quantum gates which is based on the qubit encoding in ...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The construction of a solid-state quantum computer remains a coveted, yet elusive goal. Among the mo...
Molecular nanomagnets are attractive candidate qubits because of their wide inter- and intra-molecul...
The ability to assemble weakly interacting subsystems is a prerequisite for implementing quantum inf...
The physical implementation of quantum information processing is one of the major challenges of curr...
We analyse the possibility of employing mesoscopic or nanoscopic rings of a normal metal in a double...
We show that isosceles antiferromagnetic spin triangles constitute simple and very advantageous unit...
We show that isosceles antiferromagnetic spin triangles constitute simple and very advantageous unit...
Click on the DOI link to access the article (may not be free).In many physical systems, when impleme...
Molecular magnets have been demonstrated to be promising candidates for quantum-coherent nanodevices...
Quantum systems displaying many accessible levels could be very powerful units of forthcoming quantu...
Hybrid quantum registers, such as electron-nuclear spin systems, have emerged as promising hardware ...
We propose a scheme for the implementation of quantum gates which is based on the qubit encoding ina...
We propose a scheme for the implementation of quantum gates which is based on the qubit encoding in ...
Molecular magnets have been recently proposed as possible building blocks for a solid-state quantum ...
The physical implementation of quantum information processing relies on individual modules - qubits ...
The construction of a solid-state quantum computer remains a coveted, yet elusive goal. Among the mo...
Molecular nanomagnets are attractive candidate qubits because of their wide inter- and intra-molecul...
The ability to assemble weakly interacting subsystems is a prerequisite for implementing quantum inf...
The physical implementation of quantum information processing is one of the major challenges of curr...
We analyse the possibility of employing mesoscopic or nanoscopic rings of a normal metal in a double...
We show that isosceles antiferromagnetic spin triangles constitute simple and very advantageous unit...
We show that isosceles antiferromagnetic spin triangles constitute simple and very advantageous unit...
Click on the DOI link to access the article (may not be free).In many physical systems, when impleme...
Molecular magnets have been demonstrated to be promising candidates for quantum-coherent nanodevices...
Quantum systems displaying many accessible levels could be very powerful units of forthcoming quantu...
Hybrid quantum registers, such as electron-nuclear spin systems, have emerged as promising hardware ...
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