Spin Current Magnetization Reversal Element, Magnetoresistance Effect Element, and Magnetic Memory

1. A spin current magnetization reversal element comprising: a first ferromagnetic metal layer with a changeable magnetization direction; and a spin-orbit torque wiring, wherein a first direction is defined as a direction perpendicular to a surface of the first ferromagnetic metal layer, the spin-orbit torque wiring extends in a second direction intersecting the first direction, and the spin-orbit torque wiring is bonded to a first surface of the first ferromagnetic metal layer, wherein the spin-orbit torque wiring includes a pure spin current generator which is bonded to the first surface of the first ferromagnetic metal layer and a low-resistance portion which is connected to each of both ends of the pure spin current generator in the second direction and which is formed of a material having a smaller electrical resistivity than the pure spin current generator, the pure spin current generator has a configuration wherein an area of a cross-section thereof orthogonal to the first direction continuously and/or stepwisely increases as it recedes from a bonding surface bonded to the first ferromagnetic metal layer in the first direction, the pure spin current generator includes a non-magnetic metal having an atomic number of 39 or more and having d electrons or f electrons, and electric resistivity of the pure spin current generator is two or more times larger than electric resistivity of the low-resistance portion.

2. The spin current magnetization reversal element according to claim 1, wherein the low-resistance portion connected to one end of the pure spin current generator and the low-resistance portion connected to the other end of the pure spin current generator are separated from each other.

3. The spin current magnetization reversal element according to claim 2, wherein the bonding surface of the pure spin current generator is included in an area overlapping the first surface of the first ferromagnetic metal layer.

4. The spin current magnetization reversal element according to claim 2, wherein at least a part of a boundary between the pure spin current generator and the low-resistance portion is in contact with the first surface of the first ferromagnetic metal layer.

5. The spin current magnetization reversal element according to claim 1, wherein the bonding surface of the pure spin current generator is included in an area overlapping the first surface of the first ferromagnetic metal layer.

6. The spin current magnetization reversal element according to claim 5, wherein at least a part of a boundary between the pure spin current generator and the low-resistance portion is in contact with the first surface of the first ferromagnetic metal layer.

7. The spin current magnetization reversal element according to claim 1, wherein at least a part of a boundary between the pure spin current generator and the low-resistance portion is in contact with the first surface of the first ferromagnetic metal layer.

8. The spin current magnetization reversal element according to claim 1, wherein the low-resistance portion includes a first low-resistance portion and a second low-resistance portion which are separated from each other with the pure spin current generator interposed therebetween.

9. The spin current magnetization reversal element according to claim 1, further comprising: an insulating layer which is bonded to a surface of the spin-orbit torque wiring opposite to a surface bonded to the first ferromagnetic metal layer in the spin-orbit torque wiring.

10. The spin current magnetization reversal element according to claim 1, wherein a width of the spin-orbit torque wiring is identical to a width of the first ferromagnetic metal layer.

11. A magnetoresistance effect element comprising: the spin current magnetization reversal element according to claim 1; a second ferromagnetic metal layer of which a magnetization direction is fixed; and a non-magnetic layer which is interposed between the first ferromagnetic metal layer and the second ferromagnetic metal layer.

12. A magnetic memory comprising: a plurality of the magnetoresistance effect elements according to claim 11.

13. The spin current magnetization reversal element according to claim 1, wherein the pure spin current generator has an isosceles trapezoidal prism shape or a square frustum shape which includes; an upper surface which is bonded to the first surface of the first ferromagnetic metal layer, two square sides which are connected to the low-resistance portion, and two trapezoidal sides.

14. The spin current magnetization reversal element according to claim 1, wherein the spin current magnetization reversal element includes at least one of the characteristics (i) and (ii): (i) an upper surface of the pure spin current generator and an upper surface of the low-resistance portion form a continuous flat surface, and (ii) a lower surface of the pure spin current generator and a lower surface of the low-resistance portion form a continuous flat surface.

15. The spin current magnetization reversal element according to claim 1, wherein the spin current magnetization reversal element includes one of the characteristics (i) to (v): (i) wherein a lower surface of the first ferromagnetic metal layer as a bonding surface and an upper surface of the pure spin current generator as a bonding surface completely overlap when viewed from above; (ii) a thickness of the pure spin current generator is thinner than that of the low-resistance portion such that a recessed portion is provided at a lower surface of the spin-orbit torque wiring; (iii) the first ferromagnetic metal layer is wider than the spin-orbit torque wiring when viewed from above; (iv) the first ferromagnetic metal layer is narrower than the spin-orbit torque wiring when viewed from above; and (v) the wide of the first ferromagnetic metal layer is the same as that of the spin-orbit torque wiring when viewed from above.

16. A spin current magnetization reversal element comprising: a first ferromagnetic metal layer with a changeable magnetization direction; and a spin-orbit torque wiring, wherein a first direction is defined as a direction perpendicular to a surface of the first ferromagnetic metal layer, the spin-orbit torque wiring extends in a second direction intersecting the first direction, and the spin-orbit torque wiring is bonded to a first surface of the first ferromagnetic metal layer, wherein the spin-orbit torque wiring includes a pure spin current generator which is bonded to the first surface of the first ferromagnetic metal layer and a low-resistance portion which is connected to each of both ends of the pure spin current generator in the second direction and which is formed of a material having a smaller electrical resistivity than the pure spin current generator, the pure spin current generator has a configuration wherein an area of a cross-section thereof orthogonal to the first direction continuously and/or stepwisely increases as it recedes from a bonding surface bonded to the first ferromagnetic metal layer in the first direction, and the spin current magnetization reversal element includes one of the characteristics (i) and (ii): (i) in the spin-orbit torque wiring, a surface of the pure spin current generator which is bonding to the first ferromagnetic metal layer protrudes upward to be separated from the low-resistance portion; and (ii) in the spin-orbit torque wiring, a surface of the pure spin current generator which is opposite to the bonding surface bonding to the first ferromagnetic metal layer protrudes downward to be separated from the first ferromagnetic metal layer and the low-resistance portion.

17. A spin current magnetization reversal element comprising: a first ferromagnetic metal layer with a changeable magnetization direction; and a spin-orbit torque wiring, wherein a first direction is defined as a direction perpendicular to a surface of the first ferromagnetic metal layer, the spin-orbit torque wiring extends in a second direction intersecting the first direction, and the spin-orbit torque wiring is bonded to a first surface of the first ferromagnetic metal layer, wherein the spin-orbit torque wiring includes a pure spin current generator which is bonded to the first surface of the first ferromagnetic metal layer and a low-resistance portion which is connected to each of both ends of the pure spin current generator in the second direction and which is formed of a material having a smaller electrical resistivity than the pure spin current generator, the pure spin current generator has a configuration wherein an area of a cross-section thereof orthogonal to the first direction continuously and/or stepwisely increases as it recedes from a bonding surface bonded to the first ferromagnetic metal layer in the first direction, the pure spin current generator has a structure wherein a first pure spin current generator is provided on a second pure spin current generator, the first pure spin current generator is bonded to the first surface of the first ferromagnetic metal layer and has an isosceles trapezoidal prism shape or a square frustum shape, and the second pure spin current generator is formed on one entire surface of the spin-orbit torque wiring opposite to the first ferromagnetic metal layer or is formed at a part of one surface of the spin-orbit torque wiring opposite to the first ferromagnetic metal layer.

18. The spin current magnetization reversal element according to claim 16, wherein the low-resistance portion connected to one end of the pure spin current generator and the low-resistance portion connected to the other end of the pure spin current generator are separated from each other.

19. The spin current magnetization reversal element according to claim 16, wherein the bonding surface of the pure spin current generator is included in an area overlapping the first surface of the first ferromagnetic metal layer.

20. The spin current magnetization reversal element according to claim 16, wherein at least a part of a boundary between the pure spin current generator and the low-resistance portion is in contact with the first surface of the first ferromagnetic metal layer.

21. The spin current magnetization reversal element according to claim 16, wherein the low-resistance portion includes a first low-resistance portion and a second low-resistance portion which are separated from each other with the pure spin current generator interposed therebetween.

22. The spin current magnetization reversal element according to claim 16, further comprising: an insulating layer which is bonded to a surface of the spin-orbit torque wiring opposite to a surface bonded to the first ferromagnetic metal layer in the spin-orbit torque wiring.

23. The spin current magnetization reversal element according to claim 16, wherein a width of the spin-orbit torque wiring is identical to a width of the first ferromagnetic metal layer.

24. The spin current magnetization reversal element according to claim 17, wherein the low-resistance portion connected to one end of the pure spin current generator and the low-resistance portion connected to the other end of the pure spin current generator are separated from each other.

25. The spin current magnetization reversal element according to claim 17, wherein the bonding surface of the pure spin current generator is included in an area overlapping the first surface of the first ferromagnetic metal layer.

26. The spin current magnetization reversal element according to claim 17, wherein at least a part of the boundary between the pure spin current generator and the low-resistance portion is in contact with the first surface of the first ferromagnetic metal layer.

27. The spin current magnetization reversal element according to claim 17, wherein the low-resistance portion includes a first low-resistance portion and a second low-resistance portion which are separated from each other with the pure spin current generator interposed therebetween.

28. The spin current magnetization reversal element according to claim 17, further comprising: an insulating layer which is bonded to a surface of the spin-orbit torque wiring opposite to a surface bonded to the first ferromagnetic metal layer in the spin-orbit torque wiring.

29. The spin current magnetization reversal element according to claim 17, wherein a width of the spin-orbit torque wiring is identical to a width of the first ferromagnetic metal layer.