Letter abstract
Nature Physics 1, 99 - 102 (2005)
doi:10.1038/nphys149
Subject Categories: Electronics, photonics and device physics | Nanotechnology
Electric field control of spin transport
Sangeeta Sahoo1,2, Takis Kontos1,2, Jürg Furer1, Christian Hoffmann1, Matthias Gräber1, Audrey Cottet1 and Christian Schönenberger1
Spintronics aims to develop electronic devices whose resistance is controlled by the spin of the charge carriers that flow through them1, 2, 3. This approach is illustrated by the operation of the most basic spintronic device, the spin valve4, 5, 6, which can be formed if two ferromagnetic electrodes are separated by a thin tunnelling barrier. In most cases, its resistance is greater when the two electrodes are magnetized in opposite directions than when they are magnetized in the same direction7, 8. The relative difference in resistance, the so-called magnetoresistance, is then positive. However, if the transport of carriers inside the device is spin- or energy-dependent3, the opposite can occur and the magnetoresistance is negative9. The next step is to construct an analogous device to a field-effect transistor by using this effect to control spin transport and magnetoresistance with a voltage applied to a gate10, 11. In practice though, implementing such a device has proved difficult. Here, we report on a pronounced gate-field-controlled magnetoresistance response in carbon nanotubes connected by ferromagnetic leads. Both the magnitude and the sign of the magnetoresistance in the resulting devices can be tuned in a predictable manner. This opens an important route to the realization of multifunctional spintronic devices.
- Institut für Physik, Universität Basel, Klingelbergstrasse 82, CH-4056 Basel, Switzerland
- These authors contributed equally to this work
Correspondence to: Christian Schönenberger1 e-mail: Christian.Schönenberger@unibas.ch
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