Magnetic field sensor with increased SNR

What is claimed is: 1. A magnetic field sensor, comprising: a plurality of magnetoresistance sense elements coupled together as a first circuit to sense a magnetic field, wherein each magnetoresistance sense element of the plurality of magnetoresistance sense elements includes a first ferromagnetic layer and a second ferromagnetic layer separated by an insulating barrier layer, wherein portions of at least two magnetoresistance sense elements are electrically connected, wherein at least two magnetoresistance sense elements of the plurality of magnetoresistance sense elements share a common ferromagnetic layer such that either (1) a first portion of the common ferromagnetic layer is above the first ferromagnetic layer of one of the at least two magnetoresistance sense elements and a second portion of the common ferromagnetic layer is above the first ferromagnetic layer of another one of the at least two magnetoresistance sense elements, or (2) a first portion of the common ferromagnetic layer is below the first ferromagnetic layer of one of the at least two magnetoresistance sense elements and a second portion of the common ferromagnetic layer is below the first ferromagnetic layer of another one of the at least two magnetoresistance sense elements. 2. The magnetic field sensor of claim 1 , further comprising: at least one flux guide located between the at least two magnetoresistance sense elements. 3. The magnetic field sensor of claim 1 , further comprising: at least one flux guide located between the at least two magnetoresistance sense elements, wherein the at least one flux guide is located above or below the at least two magnetoresistance sense elements. 4. The magnetic field sensor of claim 1 , further comprising: at least one flux guide located between the at least two magnetoresistance sense elements, wherein the at least one flux guide is located above or below the at least two magnetoresistance sense elements, and wherein the at least one flux guide includes a thin ferromagnetic material layer on both sides of the at least one flux guide. 5. The magnetic field sensor of claim 1 , further comprising a plurality of flux guides. 6. The magnetic field sensor of claim 1 , further comprising a plurality of flux guides, wherein the plurality of flux guides are located above or below the at least two magnetoresistance sense elements. 7. The magnetic field sensor of claim 1 , wherein, when a magnetic field is sensed by the plurality of magnetoresistance sense elements, a sense current flows through the first ferromagnetic layer, the insulating barrier layer, and the second ferromagnetic layer of a magnetoresistance sense element. 8. The magnetic field sensor of claim 1 , further comprising: at least one flux guide located between the at least two magnetoresistance sense elements, wherein the at least one flux guide is located above or below the at least two magnetoresistance sense elements, wherein the at least one flux guide is located symmetrically between the at least two magnetoresistance sense elements, and wherein a width of the at least one flux guide covers a whole width between the at least two magnetoresistance sense elements. 9. The magnetic field sensor of claim 1 , further comprising: a plurality of flux guides, wherein the plurality of flux guides are located above or below the at least two magnetoresistance sense elements, and wherein at least one flux guide of the plurality of flux guides is located symmetrically between the at least two magnetoresistance sense elements. 10. The magnetic field sensor of claim 1 , further comprising: at least one flux guide located between the at least two magnetoresistance sense elements, wherein the at least one flux guide includes a first flux guide and a second flux guide, wherein the first flux guide is located above the at least two magnetoresistance sense elements, and wherein the second flux guide is located below the at least two magnetoresistance sense elements. 11. The magnetic field sensor of claim 1 , wherein the first ferromagnetic layer of each magnetoresistance sense element includes a magnetization direction free to rotate in a magnetic field, and wherein the second ferromagnetic layer of each magnetoresistance sense element includes a fixed magnetization direction. 12. The magnetic field sensor of claim 1 , wherein the plurality of magnetoresistance sense elements includes one or more tunneling magnetoresistance sense elements, giant magnetoresistance sense elements, and/or anisotropic magnetoresistance sense elements. 13. The magnetic field sensor of claim 1 , further comprising: a conductive line coupling the first ferromagnetic layers of the at least two magnetoresistance sense elements of the plurality of magnetoresistance sense elements; and a second circuit comprising a plurality of current lines, wherein each current line of the plurality of current lines is adjacent to, above, or below a corresponding magnetoresistance sense element of the plurality of magnetoresistance sense elements. 14. The magnetic field sensor of claim 1 , further comprising: a conductive line coupling the first ferromagnetic layers of the at least two magnetoresistance sense elements; and a second circuit comprising a plurality of current lines, wherein each current line of the plurality of current lines is adjacent to, above, or below a corresponding magnetoresistance sense element of the plurality of magnetoresistance sense elements, wherein at least one current line of the plurality of current lines is positioned at either a 45 degree cross angle or a 90 degree cross angle relative to the first ferromagnetic layer of the corresponding magnetoresistance sense element of the plurality of magnetoresistance sense elements. 15. A magnetic field sensor, comprising: a plurality of magnetoresistance sense elements coupled together as a first circuit to sense a magnetic field, wherein each of the plurality of magnetoresistance sense elements includes a first ferromagnetic layer and a second ferromagnetic layer separated by an insulating barrier layer, wherein the plurality of magnetoresistance sense elements includes at least a first magnetoresistance sense element and a second magnetoresistance sense element located in a plane; and wherein the first magnetoresistance sense element and a third magnetoresistance sense element of the plurality of magnetoresistance sense elements are coupled via a first common ferromagnetic layer that extends between the first and third magnetoresistance sense elements, wherein the second magnetoresistance sense element and a fourth magnetoresistance sense element of the plurality of magnetoresistance sense elements are coupled via a second common ferromagnetic layer that extends between the second and fourth magnetoresistance sense elements, and wherein the first common ferromagnetic layer and the second common ferromagnetic layer are spaced apart. 16. The magnetic field sensor of claim 15 , wherein the first common ferromagnetic layer includes first and second portions, wherein either (1) the first portion of the common ferromagnetic layer is above a ferromagnetic layer of the first magnetoresistance sense element and the second portion of the common ferromagnetic layer is above a ferromagnetic layer of the third magnetoresistance sense element, or (2) the first portion of the common ferromagnetic layer is below a ferromagnetic layer of the first magnetoresistance sense element and the second portion of the common ferromagnetic layer is below a ferromagnetic layer of the third magnetoresistance sense element,