Add to ORKGConversion of heat into a spin-current in electron doped silicon can offer a promising path for spin-caloritronics. Here we create an electron spin polarization in the conduction band of n-type silicon by producing a temper-ature gradient across a ferromagnetic tunnel contact. The substrate heating experiments induce a large spin signal of 95µV, corresponding to 0.54 meV spin-splitting in the conduction band of n-type silicon by Seebeck spin tunneling mechanism. The thermal origin of the spin injection has been confirmed by the quadratic scaling of the spin signal with the Joule heating current and linear dependence with the heating power
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
Conversion of heat into a spin-current in electron doped silicon can offer a promising path for spin...
Conversion of heat into a spin-current in electron doped silicon can offer a promising path for spin...
The control and manipulation of the electron spin in semiconductors is central to spintronics1,2, wh...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
International audienceThe thermoelectric analog of spin-polarized tunneling, namely Seebeck spin tun...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
Conversion of heat into a spin-current in electron doped silicon can offer a promising path for spin...
Conversion of heat into a spin-current in electron doped silicon can offer a promising path for spin...
The control and manipulation of the electron spin in semiconductors is central to spintronics1,2, wh...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
Heat generation by electric current, which is ubiquitous in electronic devices and circuits, raises ...
International audienceThe thermoelectric analog of spin-polarized tunneling, namely Seebeck spin tun...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...