It is shown that, in the presence of sound waves, rotational states play an important role in the spin oscillation of a free nanomagnet. Employing the rotating wave approximation and perturbation theory, we compute the magnetization dynamics generated by ultrasound and discuss optimal conditions under which this novel quantum effect can be observed in a rotating single-molecule magnet
Spin waves have risen as promising candidate information carriers for the next generation of informa...
The theory of angular momentum connects physical rotations and quantum spins together at a fundament...
Over the past 50 years, our society has experienced a technological revolution that has fundamentall...
We have shown that macroscopic quantum beats of the magnetization can be produced by the standing ac...
We report a theoretical study on the effect of mechanical rotation of nanomagnet about a fixed axis ...
Bertaina S, Gambarelli S, Mitra T, Tsukerblat B, Müller A, Barbara B. Quantum oscillations in a mole...
Rabi oscillation generated by the acoustic wave is shown to be strongly affected by the starting con...
We model the injection of elastic waves into a ferromagnetic film (F) by a nonmagnetic transducer (N...
In this paper, we study the dynamical behavior and quantum metrology in a rotating Nitrogen-Vacancy ...
A theoretical study into the effect of stationary magnetization induced in a paramagnetic ...
We explore the feasibility of exciting localized spin-wave modes in ferromagnetic nanostructures usi...
Very recently the closely related fields of molecular spin qubits, single ion magnets and single ato...
We study spin-rotation effects in a magnetic molecule bridged between two conducting leads. The dyna...
We theoretically address the quantum dynamics of a nanomechanical resonator coupled to the macrospin...
International audienceMolecular nanomagnets, often called single-molecule magnets (SMMs), have attra...
Spin waves have risen as promising candidate information carriers for the next generation of informa...
The theory of angular momentum connects physical rotations and quantum spins together at a fundament...
Over the past 50 years, our society has experienced a technological revolution that has fundamentall...
We have shown that macroscopic quantum beats of the magnetization can be produced by the standing ac...
We report a theoretical study on the effect of mechanical rotation of nanomagnet about a fixed axis ...
Bertaina S, Gambarelli S, Mitra T, Tsukerblat B, Müller A, Barbara B. Quantum oscillations in a mole...
Rabi oscillation generated by the acoustic wave is shown to be strongly affected by the starting con...
We model the injection of elastic waves into a ferromagnetic film (F) by a nonmagnetic transducer (N...
In this paper, we study the dynamical behavior and quantum metrology in a rotating Nitrogen-Vacancy ...
A theoretical study into the effect of stationary magnetization induced in a paramagnetic ...
We explore the feasibility of exciting localized spin-wave modes in ferromagnetic nanostructures usi...
Very recently the closely related fields of molecular spin qubits, single ion magnets and single ato...
We study spin-rotation effects in a magnetic molecule bridged between two conducting leads. The dyna...
We theoretically address the quantum dynamics of a nanomechanical resonator coupled to the macrospin...
International audienceMolecular nanomagnets, often called single-molecule magnets (SMMs), have attra...
Spin waves have risen as promising candidate information carriers for the next generation of informa...
The theory of angular momentum connects physical rotations and quantum spins together at a fundament...
Over the past 50 years, our society has experienced a technological revolution that has fundamentall...