Gamma calibration

What is claimed is: 1. A method of gamma ray energy spectra calibration for a radiation detector in a borehole intersecting a volume of an earth formation, comprising: irradiating the earth formation with a neutron pulse produced by a pulsed neutron source disposed in the borehole to produce gamma-rays; generating a calibration radiation spectrum using measurements of radiation with the detector in a time interval, wherein the radiation of the measurements consists of gamma rays emitted by decay of radionuclides produced by neutron activation reactions resulting from the irradiation, the time interval following a prior time interval, wherein the prior time interval corresponds with thermal neutrons produced from the irradiation and begins with the cessation of the neutron pulse; making at least one other radiation measurement with the detector outside the time interval; and producing a calibrated radiation measurement from the at least one other radiation measurement using the calibration radiation spectrum. 2. The method of claim 1 , wherein each of the measurements and the other measurements comprises a count having an associated relative energy channel, and the calibration radiation spectrum comprises an expression of gamma ray count rate with respect to relative energy channel for the measurements of radiation with the detector in the time interval. 3. The method of claim 2 , wherein producing the calibrated radiation measurement comprises: identifying at least one peak associated with a radionuclide resulting from neutron activation reactions; and assigning an energy level to each radiation measurement of the at least one other radiation measurement in dependence upon a standard energy level corresponding to each of the at least one peak. 4. The method of claim 3 , wherein assigning an energy level to each radiation measurement comprises: using the standard energy level corresponding to each of the at least one peak to generate a mapping function associating the calibration radiation spectrum to the standard energy level corresponding to each of the at least one peak; and using the mapping function to associate relative energy channels with corresponding final energy values. 5. The method of claim 3 , comprising determining a correction factor using the standard energy level corresponding to each of the at least one peak, and producing a calibrated radiation measurement by applying the correction factor to the at least one other radiation measurement. 6. The method of claim 1 , comprising generating a calibrated measurement spectrum. 7. The method of claim 1 , wherein the at least one other radiation measurement made in the at least one other time interval measures radiation comprising gamma rays resulting from at least one of inelastic scattering and capture of neutrons. 8. The method of claim 1 , comprising making the measurements in the time interval following irradiation by conveying the radiation detector in the borehole at high speed and using a background gate of the detector. 9. The method of claim 1 , comprising: determining a mean channel for the calibration radiation spectrum; using a standard energy level corresponding to the mean channel to generate a mapping function; and using the mapping function to associate relative energy channels with corresponding final energy values. 10. The method of claim 1 , comprising conducting further operations in the formation in dependence upon the calibrated radiation measurement. 11. The method of claim 10 , wherein the further operations comprise at least one of: i) geosteering; ii) drilling at least one borehole in the formation; iii) performing measurements on the formation; iv) estimating at least one parameter of interest of the formation; v) installing equipment in a borehole in the formation; vi) evaluating the formation; vii) optimizing development in the formation; viii) optimizing development in a formation related to the formation; ix) optimizing exploration in the formation; x) optimizing exploration in a formation related to the formation; xi) producing at least one hydrocarbon from the formation. 12. An apparatus for gamma ray energy spectra calibration for at least one radiation detector for use in a borehole intersecting a volume of an earth formation, comprising: at least one radiation detector configured for conveyance by a carrier and configured to generate information representative of nuclear radiation from the formation; and an information processing device configured to: generate a calibration radiation spectrum using measurements of radiation with the detector in a time interval, wherein the radiation of the measurements consists of gamma rays emitted by decay of radionuclides produced by neutron activation reactions resulting from irradiation of the earth formation with a neutron pulse, the time interval following a prior time interval, wherein the prior time interval corresponds with thermal neutrons produced from the irradiation and begins with the cessation of the neutron pulse; make at least one other radiation measurement with the detector outside the time interval; and produce a calibrated radiation measurement from the at least one other radiation measurement using the calibration radiation spectrum. 13. The apparatus of claim 12 , wherein each of the measurements and the at least one other measurement comprises a count having an associated relative energy channel, and the calibration radiation spectrum comprises an expression of gamma ray count rate with respect to relative energy channel for the measurements of radiation with the detector in the time interval. 14. The apparatus of claim 13 , wherein the information processing device is configured to: identify at least one peak associated with a radionuclide resulting from neutron activation reactions; and assign an energy level to each radiation measurement of the at least one other radiation measurement in dependence upon a standard energy level corresponding to each of the at least one peak. 15. The apparatus of claim 14 , wherein the information processing device is configured to: use the standard energy level corresponding to each of the at least one peak to generate a mapping function associating the calibration radiation spectrum to the standard energy level corresponding to each of the at least one peak; and use the mapping function to associate relative energy channels with corresponding final energy values. 16. The apparatus of claim 14 , wherein the information processing device is configured to determine a correction factor using the standard energy level corresponding to each of the at least one peak, and producing a calibrated radiation measurement by applying the correction factor to the at least one other radiation measurement. 17. The apparatus of claim 12 , wherein the information processing device is configured to generate a calibrated measurement spectrum. 18. The apparatus of claim 12 , wherein the at least one other radiation measurement made in the at least one other time interval measures radiation comprising gamma rays predominantly resulting from at least one of inelastic scattering and capture of neutrons. 19. The apparatus of claim 12 , wherein the information processing device is configured to make the measurements in the time interval following irradiation by conveying the radiation detector in the borehole at high speed and using a background gate of the detector. 20. The apparatus of claim 12 , comprising a pulsed neutron source,