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Apparatuses, methods, and systems relating to radiological characterization of environments are disclosed. Multi-detector probes with a plurality of detectors in a common housing may be used to substantially concurrently detect a plurality of different radiation activities and types. Multiple multi-

Apparatuses, methods, and systems relating to radiological characterization of environments are disclosed. Multi-detector probes with a plurality of detectors in a common housing may be used to substantially concurrently detect a plurality of different radiation activities and types. Multiple multi-detector probes may be used in a down-hole environment to substantially concurrently detect radioactive activity and contents of a buried waste container. Software may process, analyze, and integrate the data from the different multi-detector probes and the different detector types therein to provide source location and integrated analysis as to the source types and activity in the measured environment. Further, the integrated data may be used to compensate for differential density effects and the effects of radiation shielding materials within the volume being measured.

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1. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detecting a plurality of different radiation types in a down-hole environment with a multiple-detector probe including a first detector configured to detect a first radiation type, and a second

1. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detecting a plurality of different radiation types in a down-hole environment with a multiple-detector probe including a first detector configured to detect a first radiation type, and a second detector configured to detect a second radiation type that is different than the first radiation type, wherein detecting a plurality of radiation types includes detecting radiation from contents of a buried waste container in the down-hole environment;sending substantially concurrent measurement data from the first detector and the second detector of the multiple-detector probe to a computer;calculating a radiation source location in the down-hole environment and source type based on the measurement data detected by the first detector and the second detector; andtaking measurement data for the plurality of radiation types from at least one other multiple-detector probe at another different location relative to the buried waste container within the down-hole environment. 2. The method of claim 1, wherein calculating a radiation source location is based at least in part on measurement data from the multiple-detector probe located in a first hole and measurement data from the at least one other multiple-detector probe located in at least one other hole of the down-hole environment. 3. The method of claim 1, further comprising processing detected measurement data to create a spectrum of radiation energies emitted from one or more radiation sources contained within the down-hole environment. 4. The method of claim 1, wherein the taking the measurement data from the multiple-detector probe located in a first hole and taking the measurement data from the at least one other multiple-detector probe located in at least one other hole of the down-hole environment occurs at least substantially simultaneously at a similar depth within their respective hole. 5. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detecting a plurality of radiation types in an environment with a probe including a plurality of detectors;sending substantially concurrent measurement data from the plurality of detectors of the probe to a computer;taking measurement data for the plurality of radiation types from at least one other probe at another different location relative to a buried waste container within the environment; andcombining a spectral analysis of source type with a calculated estimate of radiation source location based at least in part on measurements detected by the probe and the at least one other probe. 6. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detecting a plurality of radiation types in an environment with a probe including a plurality of detectors;transmitting substantially concurrent measurement data from the plurality of detectors of the probe to a computer;taking measurement data for the plurality of radiation types from at least one other probe at another different location relative to a buried waste container within the environment; andcompensating for differential density in the buried waste container by comparing strength of multiple gamma ray lines with expected strengths of gamma rays from known sources. 7. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detecting a plurality of different radiation types in a down-hole environment with a multiple-detector probe including a first detector configured to detect a first radiation type, and a second detector configured to detect a second radiation type that is different than the first radiation type;sending substantially concurrent measurement data from the plurality of detectors of the multiple-detector probe to a computer;taking measurement data for the plurality of different radiation types from at least one other multiple-detector probe at another different location relative to a buried waste container within the environment; andcompensating for differential density in the buried waste container by comparing strength of multiple gamma ray lines with expected strengths of gamma rays from known sources. 8. The method of claim 7, wherein detecting a plurality of different radiation types includes detecting radiation from contents of a buried waste container in the down-hole environment. 9. The method of claim 7, wherein detecting a plurality of different radiation types comprises: detecting one of gross gamma activity, isotopic activity, or neutron activity for the first radiation type; anddetecting another of gross gamma activity, isotopic activity, or neutron activity for the second radiation type. 10. The method of claim 8, further comprising calculating radiation source location in the down-hole environment and source type based on the measurement data detected by the plurality of detectors. 11. The method of claim 8, wherein detecting a plurality of radiation types comprises taking measurement data using the multiple-detector probe at incremental depth positions in the down-hole environment. 12. A method for detecting multiple forms of radioactive activity in an environment, the method comprising: detective a plurality of different radiation types in a down-hole environment with a multiple-detector probe including a first detector configured to detect a first radiation type, and a second detector configured to detect a second radiation type that is different than the first radiation type;sending substantially concurrent measurement data from the plurality of detectors of the multiple-detector probe to a computer;taking measurement data for the plurality of different radiation types from at least one other multiple-detector probe at another different location relative to a buried waste container within the environment; andcombining a spectral analysis of source type with a calculated estimate of radiation source location based at least in part on measurements detected by the multiple-detector probe and the at least one other multiple-detector probe. 13. The method of claim 12, wherein detecting a plurality of different radiation types in a down-hole environment with a multiple-detector probe includes generating an energy spectrum of measured gamma pulse heights from pulses generated by at least one detector of the plurality of detectors. 14. The method of claim 12, wherein detecting a plurality of different radiation types in a down-hole environment with a multiple-detector probe includes counting events of neutron pulse activity generated by at least one detector of the plurality of detectors. 15. The method of claim 12, wherein the first detector and second detector are two different detectors selected from the group consisting of an isotopic gamma-ray detector, a gross gamma radiation detector, and a neutron detector. 16. The method of claim 15, wherein the two different detectors are selected from the group consisting of a BF3 neutron detector, 3He neutron detector, NaI isotopic detector, CZT isotopic detector, LaBr3 isotopic detector, and a Geiger-Mueller detector.