Determination of elemental concentrations from the capture and inelastic energy spectra

What is claimed is: 1. A method of determining a composition of formation rock in an earth formation traversed by a borehole, the method comprising: providing an inelastic spectrum and a capture spectrum each determined using a pulsed-neutron geochemical logging tool conveyed in the borehole, wherein: the inelastic spectrum reflects gamma photons emitted by inelastic interactions of neutrons with elements present in the borehole, formation rock, and formation pores, and wherein the capture spectrum reflects gamma photons emitted by capture interactions of neutrons with elements present in the borehole, formation rock, and formation pores; deconvolving and normalizing the inelastic spectrum and the capture spectrum to determine a normalized set of inelastic yields and a normalized set of capture yields, wherein: the normalized set of inelastic yields reflects elemental yields of inelastic elements present in the borehole, formation rock, and formation pores, and the normalized set of capture yields reflects elemental yields of capture elements present in the borehole, formation rock, and formation pores; transforming the normalized set of inelastic yields and the normalized set of capture yields to determine a transformed set of inelastic yields and a transformed set of capture yields, wherein: the transformed set of inelastic yields reflects only elemental yields of the inelastic elements present in the formation rock, and the transformed set of capture yields reflects only elemental yields of the capture elements present in the formation rock; and using the elemental yields of the inelastic elements present in the formation rock as determined from the transformed set of inelastic yields and at least one inelastic calibration function, determining an elemental concentration of at least one of the inelastic elements present in the formation rock. 2. The method of claim 1 , further comprising using an oxide closure model to determine an elemental concentration of at least one of the capture elements present in the formation rock, wherein the oxide closure model comprises: the determined elemental concentrations of the at least one of the inelastic elements present in the formation rock, and the elemental yields of the capture elements present in the formation rock determined from the transformed set of capture yields. 3. The method of claim 1 , wherein transforming the set of normalized inelastic yields comprises discarding from the set of normalized inelastic yields yields of inelastic elements present in the borehole and in the pores of the formation and then renormalizing the yields of the inelastic elements present in the formation rock. 4. The method of claim 3 , wherein the inelastic elements present in the borehole and in the pores of the formation comprise one or more of carbon and oxygen. 5. The method of claim 4 , wherein the inelastic elements present in the borehole and in the pores comprise organic carbon. 6. The method of claim 3 , wherein in the method further comprises providing a measurement of total organic carbon and wherein transforming the set of normalized inelastic yields comprises discarding from the set of normalized inelastic yields an inelastic yield for carbon reflecting the total organic carbon. 7. The method of claim 1 , wherein the at least one inelastic calibration function is determined by using the geochemical logging tool to measure a plurality of sample formations comprising known amounts of the at least one inelastic elements. 8. The method of claim 7 , wherein the at least one of the inelastic elements comprises aluminum and wherein the plurality of sample formations comprises one or more formations selected from the group consisting of carbonate formations, sandstone formations, and granite formations. 9. The method of claim 7 , wherein the at least one of the inelastic elements comprises magnesium and wherein the plurality of sample formations comprises one or more formations selected from the group consisting of sandstone formations and dolomite formations. 10. The method of claim 7 , wherein the at least one of the inelastic elements comprises carbon and wherein the plurality of sample formations comprises one or more formations selected from the group consisting of calcite, dolomite, and siderite. 11. A non-transitory computer readable medium comprising instructions, which when executed on a processor configure the processor to perform a method comprising: obtaining an inelastic spectrum and a capture spectrum each determined using a pulsed-neutron geochemical logging tool conveyed in the borehole, wherein: the inelastic spectrum reflects gamma photons emitted by inelastic interactions of neutrons with elements present in the borehole, formation rock, and formation pores, and wherein the capture spectrum reflects gamma photons emitted by capture interactions of neutrons with elements present in the borehole, formation rock, and formation pores; deconvolving and normalize the inelastic spectrum and the capture spectrum to determine a set of normalized inelastic yields and a set of normalized capture yields, wherein: the set of normalized inelastic yields reflects elemental yields of inelastic elements present in the borehole, formation rock, and formation pores, and the set of normalized capture yields reflects elemental yields of capture elements present in the borehole, formation rock, and formation pores; transforming the set of normalized inelastic yields and the set of normalized capture yields to determine a transformed inelastic yield and a transformed capture yield, wherein: the transformed set of inelastic yields reflects only elemental yields of the inelastic elements present in the formation rock, and the transformed set of capture yields reflects only elemental yields of the capture elements present in the formation rock; and using the elemental yields of the inelastic elements present in the formation rock determined from the transformed set of inelastic yields and at least one inelastic calibration function to determine an elemental concentration of at least one of the inelastic elements present in the formation rock. 12. The non-transitory computer readable medium of claim 11 , further comprising using an oxide closure model to determine an elemental concentration of at least one of the capture elements present in the formation rock, wherein the oxide closure model comprises: the determined elemental concentrations of the at least one of the inelastic elements present in the formation rock, and the elemental yields of the capture elements present in the formation rock determined from the set of transformed capture yields. 13. The non-transitory computer readable medium of claim 11 , wherein transforming the set of normalized inelastic yields comprises discarding from the set of normalized inelastic yields those yields of inelastic elements present in the borehole and in the pores of the formation and renormalizing the yields of the inelastic elements present in the formation rock. 14. The non-transitory computer readable medium of claim 13 , wherein the inelastic elements present in the borehole and in the pores of the formation comprise one or more of carbon and oxygen. 15. The non-transitory computer readable medium of claim 14 , wherein the inelastic elements present in the borehole and in the pores comprise organic carbon. 16. The non-transitory computer readable medium of claim 13 , wherein in the method further comprises providing a measurement of total organic carbon and wherein transforming the set of normal