Thermocouple apparatus and method

We claim: 1. A thermocouple, comprising: a metal alloy outer sheath; a first thermoelement, wherein the first thermoelement extends within the metal alloy outer sheath; a second thermoelement, wherein the second thermoelement extends within the metal alloy outer sheath; and a nickel-based inner sheath containing less than 10 wt % chromium, wherein the nickel-based inner sheath contains greater than 90 wt % nickel, and wherein the nickel-based inner sheath is positioned between the first thermoelement and the metal alloy outer sheath. 2. The thermocouple according to claim 1 , wherein the nickel-based inner sheath contains greater than 99 wt % nickel. 3. The thermocouple according to claim 1 , wherein the nickel-based inner sheath is formed from Nickel 270. 4. The thermocouple according to claim 1 , wherein the nickel-based inner sheath contains less than 5 wt % chromium. 5. The thermocouple according to claim 1 , wherein the nickel-based inner sheath contains less than 0.1 wt % chromium. 6. The thermocouple according to claim 1 , wherein the nickel-based inner sheath contains less than 0.2 wt % manganese. 7. The thermocouple according to claim 1 , wherein the nickel-based inner sheath contains less than 0.01 wt % manganese. 8. The thermocouple according to claim 1 , wherein the metal alloy outer sheath and the nickel-based inner sheath are in a form of coaxial tubes. 9. The thermocouple according to claim 8 , wherein the thermocouple further comprises: an insulating material positioned: (i) between the first thermoelement and the second thermoelement; (ii) between the first thermoelement and an inner surface of the nickel-based inner sheath; and (iii) between the second thermoelement and the inner surface of the nickel-based inner sheath, such that: (a) the first thermoelement and the second thermoelement are insulated from each other; (b) the first thermoelement is insulated from the inner surface of the nickel-based inner sheath; and (c) the second thermoelement is insulated from the inner surface of the nickel-based inner sheath. 10. The thermocouple according to claim 1 , wherein the metal alloy outer sheath is in contact with the nickel-based inner sheath. 11. The thermocouple according to claim 1 , wherein the thermocouple further comprises: a second nickel-based inner sheath containing less than 10 wt % chromium, wherein the second nickel-based inner sheath is positioned between the second thermoelement and the metal alloy outer sheath. 12. The thermocouple according to claim 11 , wherein the thermocouple further comprises: an insulating material positioned: (i) between the first thermoelement and an inner surface of the nickel-based inner sheath; (ii) between the second thermoelement and an inner surface of the second nickel-based inner sheath; (iii) between an outer surface of the nickel-based inner sheath and an outer surface of the second nickel-based inner sheath; (iv) between the outer surface of the nickel-based inner sheath and an inner surface of the metal alloy outer sheath; and (v) between the outer surface of the second nickel-based inner sheath and the inner surface of the metal alloy outer sheath, such that: (a) the first thermoelement is insulated from the inner surface of the nickel-based inner sheath; (b) the second thermoelement is insulated from the inner surface of the second nickel-based inner sheath; (c) the outer surface of the nickel-based inner sheath is insulated from the outer surface of the second nickel-based inner sheath; (d) the outer surface of the nickel-based inner sheath is insulated from the inner surface of the metal alloy outer sheath; and (e) the outer surface of the second nickel-based inner sheath is insulated from the inner surface of the metal alloy outer sheath. 13. The thermocouple according to claim 1 , wherein the first thermoelement is formed from Ni alloys, and wherein Ni is the largest component by weight of the Ni alloys. 14. The thermocouple according to claim 1 , wherein at least a portion of an outer surface of the metal alloy outer sheath is coated with an intermetallic or is coated using chromizing. 15. The thermocouple according to claim 14 , wherein the at least a portion of the outer surface of the metal alloy outer sheath is coated with the intermetallic, and wherein the intermetallic is a nickel-aluminide or platinum-doped nickel-aluminide. 16. The thermocouple according to claim 1 , wherein the nickel-based inner sheath is adapted to prevent diffusion of contaminants, which if absorbed by the first thermoelement would change a Seebeck coefficient of the first thermoelement, from the metal alloy outer sheath to the first thermoelement, along the thermocouple, during exposure of the thermocouple to temperatures above 1000° C. 17. The thermocouple according to claim 16 , wherein the nickel-based inner sheath has a thickness between 300 and 500 micrometers. 18. The thermocouple according to claim 16 , wherein the metal alloy outer sheath contains: (i) manganese; (ii) chromium; or (iii) manganese and chromium, and wherein the nickel-based inner sheath is adapted to: (a) prevent diffusion of manganese: (b) prevent diffusion of chromium; or (c) prevent diffusion of manganese and chromium, respectively, from the metal alloy outer sheath to the first thermoelement, along the thermocouple, during exposure of the thermocouple to temperatures above 1000° C. 19. The thermocouple according to claim 1 , wherein the thermocouple is configured to prevent oxidation of the first thermoelement and the second thermoelement when the thermocouple is operated in an oxidizing environment above 1000° C. 20. The thermocouple according to claim 1 , wherein the metal alloy outer sheath is formed of an oxidation-resistant metal alloy. 21. A method of measuring a temperature, comprising: providing a thermocouple, wherein the thermocouple comprises: a metal alloy outer sheath; a first thermoelement, wherein the first thermoelement extends within the metal alloy outer sheath; a second thermoelement, wherein the second thermoelement extends within the metal alloy outer sheath; and a nickel-based inner sheath containing less than 10 wt % chromium, wherein the nickel-based inner sheath contains greater than 90 wt % nickel, and wherein the nickel-based inner sheath is positioned between the first thermoelement and the metal or metal alloy outer sheath; interconnecting the thermocouple to an object; exposing the thermocouple to an oxidizing environment at a temperature above 1000° C; receiving a voltage from the thermocouple; and determining a measured temperature of the object via the voltage. 22. A method for fabricating a thermocouple, wherein the thermocouple comprises: a metal alloy outer sheath; a first thermoelement, wherein the first thermoelement extends within the metal alloy outer sheath; a second thermoelement, wherein the second thermoelement extends within the metal alloy outer sheath; and a nickel-based inner sheath containing less than 10 wt % chromium, wherein the nickel-based inner sheath contains greater than 90 wt % nickel, and wherein the nickel-based inner sheath is positioned between the first thermoelement and the metal alloy outer sheath, and wherein the method comprises: forming the metal alloy outer sheath and the nickel-based inner sheath simultan