R. Fiederling, M. Keim, G. Reuscher, W. Ossau, G. Schmidt, A. Waag, L.W. Molenkamp Injection and Detection of a Spin-polarized Current in a n-i-p Light Emitting Diode NATURE 402 (2015-02-24 11:03:24), 787-790
The field of magnetoelectronics has been growing in practical importance in recent years1. For example, devices that harness electronic spinÐsuch as giant-magnetoresistive sensors and magnetoresistive memory cells are now appearing on the market. In contrast, magnetoelectronic devices based on spinpolarized transport in semiconductors are at a much earlier stage of development, largely because of the lack of an efficient means of injecting spin-polarized charge.Much work has focused on the use of ferromagnetic metallic contacts, but it has proved exceedingly difficult to demonstrate polarized spin injection. More recently, two groups have reported successful spin injection from an NiFe contact, but the observed effects of the spin-polarized transport were quite small (resistance changes of less than 1%). Here we describe a different approach, in which the magnetic semiconductor BexMnyZn1-x-ySe is used as a spin aligner. We achieve injection efficiencies of 90% spin-polarized current into a nonmagnetic semiconductor device. The device used in this case is a GaAs/AlGaAs light-emitting diode, and spin polarization is confirmed by the circular polarization state of the emitted light. http://www.nature.com/nature/journal/v402/n6763/full/402787a0.html |