Gain stabilization in a gamma ray detection apparatus

What is claimed is: 1 . A method comprising: receiving gamma ray measurements from a gamma ray detector; generating a spectrum based on the gamma ray measurements, the spectrum including a plurality of channels and count rates for the plurality of channels, wherein a channel number of a channel corresponds to energy values associated with the gamma ray measurements; generating a ratio of total counts in a first window of the spectrum to total counts in a second window of the spectrum, the first window including a first set of channels with a low threshold channel and the second window including a second set of channels; and adjusting a gain of the gamma ray detector responsive to determining that the ratio is different from a desired ratio. 2 . The method of claim 1 , further comprising: determining the desired ratio by accessing a test spectrum representative of a subterranean formation that includes a combination of at least two of potassium, uranium or thorium; accessing a potassium spectrum representative of a formation that consists essentially of potassium; selecting a first window size and a second window size; varying a channel number of a low threshold channel associated with the test spectrum over a range of channel numbers, to generate a first curve defining a relationship between the channel number of the low threshold channel associated with the test spectrum and a ratio of first window total counts to second window total counts associated with the test spectrum, the first window total counts being based on the first window size and the channel number of the low threshold channel associated with the test spectrum and the second window total counts being based on the second window size; varying a channel number of a low threshold channel associated with the potassium spectrum over a range of channel numbers to generate a second curve defining a relationship between the channel number of the low threshold channel associated with the potassium spectrum and a ratio of first window total counts to second window total counts associated with the potassium spectrum, the first window total counts being based on the first window size and the channel number of the low threshold channel associated with the potassium spectrum and the second window total counts being based on the second window size; and selecting a ratio as the desired ratio based on a point at which the first curve and the second curve intersect. 3 . The method of claim 2 , wherein the range of channel numbers is selected based on electrical parameters of the gamma ray detector. 4 . The method of claim 3 , wherein the range of channel numbers corresponds to energy values of 200 keV to 900 keV. 5 . The method of claim 1 , further comprising: selecting a size for each of the first window and the second window by accessing a test spectrum representative of a formation that includes a combination of at least two of potassium, uranium or thorium; accessing a potassium spectrum representative of a formation that consists essentially of potassium; selecting a first value for the number of channels to be used for the first window and the second window; varying a channel number of a low threshold channel associated with the test spectrum over a range of channel numbers to generate a first curve defining a relationship between channel numbers and a ratio of first window total counts to second window total counts associated with the test spectrum; varying a channel number of a low threshold channel associated with the potassium spectrum over a range of channel numbers to generate a second curve defining a relationship between channel numbers and a ratio of first window total counts to second window total counts associated with the potassium spectrum; adapting the first value for the number of channels to be used for the first window and the second window, responsive to determining whether and at how many points the first curve and the second curve intersect, to generate a second value for the number of channels to be used for the first window and the second window; and repeating the generating the first curve, generating the second curve, and the adapting until a curve shape criterion is met. 6 . The method of claim 5 , wherein the curve shape criterion includes a determination that the first curve and the second curve meet in no more than two points. 7 . The method of claim 1 , further comprising: repeating the receiving, generating the spectrum, generating the ratio and the adjusting periodically to provide operational stabilization of the gamma ray detector. 8 . The method of claim 1 , further comprising: logging the gamma ray measurements as part of a down hole logging operation. 9 . The method of claim 1 , wherein adjusting the gain includes adjusting one of a detector supply voltage and an amplifier gain associated with the gamma ray detector. 10 . The method of claim 1 , wherein the first set of channels does not overlap with the second set of channels. 11 . The method of claim 10 , wherein the first set of channels includes between 5 and 10 contiguous channels and the second set of channels includes between 15 and 20 contiguous channels, and wherein the desired ratio is within a threshold range of 0.58. 12 . An apparatus comprising: a gamma ray detector to receive a detector supply voltage, the gamma ray detector to detect gamma radiation as detected gamma radiation; signal processing circuitry coupled to the gamma ray detector, the signal processing circuitry including a pulse height analyzer to generate a spectrum based on the gamma ray measurements, the spectrum including a plurality of channels and count rates for the plurality of channels, wherein a channel number of a channel corresponds to energy values of the received gamma ray measurements; and a gain stabilization device to generate a ratio of total counts in a first window of the spectrum to total counts in a second window of the spectrum, the first window including a first set of channels starting at a low threshold channel and the second window including a second set of channels, and adjust a gain of the gamma ray detector if the ratio is outside a threshold range of a desired ratio. 13 . The apparatus of claim 12 , further comprising: a high voltage power supply to supply the detector supply voltage. 14 . The apparatus of claim 12 , wherein the gamma ray detector includes a scintillation crystal to scintillate responsive to radiation emitted by a subterranean formation, and a photodetector for transmitting light emitted by the scintillator crystal, and wherein the gamma ray detector does not include a reference scintillation crystal. 15 . The apparatus of claim 14 , wherein the gamma ray detector includes an amplifier to amplify electrical impulses output by the photodetector. 16 . The apparatus of claim 15 , wherein the gain stabilization device is coupled to one or more of the high voltage power supply and the amplifier to adjust the gain of the gamma ray detector. 17 . A system comprising: a gamma radiation detection apparatus including a gamma ray detector to receive a detector supply voltage, the gamma ray detector to detect gamma radiation as detected gamma radiation; signal processing circuitry coupled to the gamma ray detector, the signal processing circuitry including a pulse height analyzer to generate a spectrum based on the gamma ray measurements, the spectrum including a plurality of channels and count rates for the plurality of channels, wherein a channel number of