Using numerical renormalization group calculations, we study\ud the effect of a vibrational mode on the electronic properties of a deformable\ud spin-1 molecule, in a break junction setup. Stretching the molecule along the\ud transport axis introduces a static magnetic anisotropy, as shown by\ud experiments
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
Using numerical renormalization group calculations, we study the effect of a vibrational mode on the...
We theoretically analyze the spectrum of a magnetic molecule when its charge and spin can couple to ...
Using numerical renormalization group calculations, we study\ud the effect of a vibrational mode on ...
The development of spintronic and quantum computing has inspired researchers to search for single-mo...
We study electron transport through a single-molecule magnet (SMM) and the interplay of its anisotro...
The effect of molecular vibrations on the tunnel magnetoresistance (TMR) of a mag- netic tunnel junc...
This dissertation presents the experimental work on singlemolecule charge transport, particularly on...
This dissertation presents the experimental work on singlemolecule charge transport, particularly on...
We analyze the electronic transport through a model spin-1 molecule as a function of temperature, ma...
We investigate transport through mechanically triggered single-molecule switches that are based on t...
We study spin-rotation effects in a magnetic molecule bridged between two conducting leads. The dyna...
The effect of molecular vibrations on the tunnel magnetoresistance (TMR) of a mag- netic tunnel junc...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
Using numerical renormalization group calculations, we study the effect of a vibrational mode on the...
We theoretically analyze the spectrum of a magnetic molecule when its charge and spin can couple to ...
Using numerical renormalization group calculations, we study\ud the effect of a vibrational mode on ...
The development of spintronic and quantum computing has inspired researchers to search for single-mo...
We study electron transport through a single-molecule magnet (SMM) and the interplay of its anisotro...
The effect of molecular vibrations on the tunnel magnetoresistance (TMR) of a mag- netic tunnel junc...
This dissertation presents the experimental work on singlemolecule charge transport, particularly on...
This dissertation presents the experimental work on singlemolecule charge transport, particularly on...
We analyze the electronic transport through a model spin-1 molecule as a function of temperature, ma...
We investigate transport through mechanically triggered single-molecule switches that are based on t...
We study spin-rotation effects in a magnetic molecule bridged between two conducting leads. The dyna...
The effect of molecular vibrations on the tunnel magnetoresistance (TMR) of a mag- netic tunnel junc...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
To design molecular spin qubits and nanomagnets operating at high temperatures, there is an urgent n...
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