Scientists Push Valleytronics One Step Closer to Reality

Scientists with the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have taken a big step toward the practical application of "valleytronics," which is a new type of electronics that could lead to faster and more efficient computer logic systems and data storage chips in next-generation devices. As reported online April 4 in the journal  Nature Nanotechnology , the scientists experimentally demonstrated, for the first time, the ability to electrically generate and control valley electrons in a two-dimensional semiconductor. This schematic shows a TMDC monolayer coupled with a host ferromagnetic semiconductor, which is an experimental approach developed by Berkeley Lab scientists that could lead to valleytronic devices. Valley polarization can be directly determined from the helicity of the emitted electroluminescence, shown by the orange arrow, as a result of electrically injected spin-polarized holes to the TMDC monolayer, shown by the blue arrow. The black arrow represents the direction of the applied magnetic field. (Credit: Berkeley Lab) Valley electrons are so named because they carry a valley "degree of freedom." This is a new way to harness electrons for information processing that's in addition to utilizing an electron's other degrees of freedom, which are quantum spin in spintronic devices and charge in conventional electronics. More specifically, electronic valleys refer to the energy peaks and valleys in electronic bands.