Patent ID: 8860159

Claim:
A spintronic electronic apparatus having a multilayer structure, the apparatus comprising: a substrate, wherein the substrate comprises SiO 2 , and having disposed in succession upon the substrate; a bottom interface layer, wherein the bottom interface layer comprises a plurality of bottom sub-layers that are disposed in succession, and the plurality of bottom sub-layers comprises a Ta first bottom sub-layer, a CuN second bottom sub-layer, a Ta third bottom sub-layer, a CuN fourth bottom sub-layer, a Ta fifth bottom sub-layer, a Ru sixth bottom sub-layer, and a Ta seventh bottom sub-layer, and, wherein the first bottom sub-layer has a thickness of about 3 nm, the second bottom sub-layer has a thickness of about 40 nm, the third bottom sub-layer has a thickness of about 3 nm, the fourth bottom sub-layer has a thickness of about 40 nm, the fifth bottom sub-layer has a thickness of about 3 nm, the sixth bottom sub-layer has a thickness of about 10 nm, and the seventh bottom sub-layer has a thickness of about 5 nm; a pinned layer, wherein the pinned layer comprises a plurality of fixed sub-layers that are disposed in succession, the plurality of fixed sub-layers comprises a Pt 37 Mn 63 first fixed sub-layer, a Co 70 Fe 30 second fixed sub-layer, a Ru third fixed sub-layer, and a Co 40 Fe 40 B 20 fourth fixed sub-layer, and the first fixed sub-layer has a thickness of about 15 nm, the second fixed sub-layer has a thickness of about 2.3 nm, the third fixed sub-layer has a thickness of about 0.85 nm, and the fourth fixed sub-layer has a thickness of about 2.4 nm; a tunneling barrier, wherein the tunneling barrier comprises MgO, and has a thickness of about 2.4 nm; a free layer, wherein the free layer comprises Co 40 Fe 40 B 20 , and has a thickness of about 2.4 nm; and a top interface layer, wherein the top interface layer comprises a plurality of top sub-layers that are disposed in succession away from the free layer, the plurality of top sub-layers comprise a Ta first top sub-layer, a Cu second top sub-layer, a Ru third top sub-layer, and a Ta fourth top sub-layer, and the first top sub-layer has a thickness of about 5 nm, the second top sub-layer has a thickness of about 10 nm, the third top sub-layer has a thickness of about 5 nm, and the fourth top sub-layer has a thickness of about 3 nm, wherein the apparatus operates as a non-resonant magnetic tunnel junction in a large amplitude, out-of-plane magnetization precession regime having weakly current dependent, large diode volt-watt sensitivity when external microwave signals that exceed a predetermined threshold current and have a frequency that is lower than a predetermined level excite the magnetization precession.