Measurement while drilling spontaneous potential indicator using differential magnetometers

What is claimed is: 1. A method of determining a parameter of a formation, comprising: disposing member having a longitudinal axis in a borehole at the downhole location of the formation; disposing a first magnetometer and a second magnetometer at an axial location of the member and at separate azimuthal locations around the member and oriented tangential to a circumference of circle in a plane transverse to a longitudinal axis of the member; measuring a first magnetic field at the first magnetometer that is a combination of a magnetic field resulting from a current flowing through the member due to the spontaneous potential and a component of the earth's magnetic field; measuring a second magnetic field at the second magnetometer that is a difference between the magnetic field resulting from the current flowing through the member due to the spontaneous potential and the component of the earth's magnetic field; calculating the spontaneous potential from the first magnetic field and the second magnetic field; and determining the parameter of the formation from the spontaneous potential. 2. The method of claim 1 , further comprising determining the parameter of the formation from a change in the parameter of the formation as the first magnetometer and the second magnetometer pass from one formation layer to another formation layer. 3. The method of claim 1 , wherein at least one of the first magnetometer and the second magnetometer is a part of a tri-axial magnetometer. 4. The method of claim 1 , wherein determining the spontaneous potential further comprises determining at least one of: (i) an electrochemical component of the spontaneous potential; and (ii) an electrokinetic component of the spontaneous potential. 5. The method of claim 1 , wherein the parameter of the formation is selected from a group consisting of: (i) a presence of an invaded zone; (ii) a presence of mud cake; (iii) a resistivity of the formation; (iv) a relative permeability between formation layers; (v) a relative porosity between formation layers; (vi) an influx of mud into the formation; (vii) an influx of fluid into the borehole; and (viii) a parameter that affects the spontaneous potential. 6. The method of claim 1 , wherein the first magnetometer and the second magnetometer are diametrically opposed to each other. 7. The method of claim 1 , wherein the member is part of at least one of: (i) a drill string, and (ii) a drill collar of a measurement-while-drilling tool. 8. A drilling apparatus, comprising: a member having a longitudinal axis; a first magnetometer and a second magnetometer disposed at an axial location of the member and at separate azimuthal locations around the member and oriented tangential to a circumference of circle in a plane transverse to the longitudinal axis of the member; and a processor configured to: obtain a first magnetic field measurement from the first magnetometer that is a combination of a magnetic field resulting from a current flowing through the member due to a spontaneous potential in the formation and a component of the earth's magnetic field, obtain a second magnetic field measurement from the second magnetometer that is a difference between the magnetic field resulting from a current flowing through the member due to the spontaneous potential in the formation and the component of the earth's magnetic field; calculate the spontaneous potential from the obtained first magnetic field and second magnetic field, and determine a parameter of the formation from the determined spontaneous potential. 9. The drilling apparatus of claim 8 , wherein the processor is further configured to determine a change in the parameter of the formation as the first magnetometer and the second magnetometer pass from one formation layer to another formation layer. 10. The drilling apparatus of claim 8 , wherein at least one of the first magnetometer and the second magnetometer is a part of a tri-axial magnetometer. 11. The drilling apparatus of claim 8 , wherein the processor is further configured to determine from the first and second magnetic fields at least one of (i) an electrochemical component of the spontaneous potential; and (ii) an electrokinetic component of the spontaneous potential. 12. The drilling apparatus of claim 8 , wherein the parameter of the formation is selected from a group consisting of: (i) a presence of an invaded zone; (ii) a presence of mud cake; (iii) a resistivity of the formation; (iv) a relative permeability between formation layers; (v) a relative porosity between formation layers; (vi) an influx of mud into the formation; (vii) a influx of fluid into the borehole; and (viii) a parameter that affects the spontaneous potential. 13. The drilling apparatus of claim 8 , wherein the member is in an interior of another member, wherein a conductivity of the member is greater than a conductivity of the other member. 14. The drilling apparatus of claim 8 , wherein the member is part of at least one of: (i) a drill string, (ii) a drill collar of a measurement-while-drilling tool. 15. A drilling system, comprising: a drill string including a first member and a second member in an interior of the first member, wherein the second member has a longitudinal axis; a first magnetometer and a second magnetometer disposed in an annular region between the second member and the first member at an axial location of the second member, wherein the first magnetometer and the second magnetometer are at separate azimuthal locations around the second member and oriented tangential to a circumference of circle in a plane transverse to the longitudinal axis; and a processor configured to: obtain a first magnetic field measurement from the first magnetometer that is a combination of a magnetic field resulting from a current flowing through the member due to a spontaneous potential in the formation and a component of the earth's magnetic field, obtain a second magnetic field measurement from the second magnetometer that is a difference between the magnetic field resulting from a current flowing through the member due to the spontaneous potential in the formation and the component of the earth's magnetic field, calculate the spontaneous potential from the obtained first magnetic field and second magnetic field, and determine a parameter of the formation from the spontaneous potential. 16. The drilling system of claim 15 , wherein the processor is further configured to determine a change in the parameter of the formation as the first magnetometer and the second magnetometer pass from one formation layer to another formation layer. 17. The drilling system of claim 15 , wherein at least one of the first magnetometer and the second magnetometer is a part of a tri-axial magnetometer. 18. The drilling system of claim 15 , wherein the processor is further configured to determine from the first and second magnetic fields at least one of (i) an electrochemical component of the spontaneous potential; and (ii) an electrokinetic component of the spontaneous potential. 19. The drilling system of claim 15 , wherein the parameter of the formation is selected from a group consisting of: (i) a presence of an invaded zone; (ii) a presence of mud cake; (iii) a resistivity of the formation; (iv) a relative permeability between formation layers; (v) a relative porosity between formation layers; (vi) an influx of mud into the formation; (vii) a influx of fluid into the borehole; and (viii) a parameter of the formation that affects the spontaneous potential