Aging compensation and temperature compensation of a photomultiplier in a radiometric measurement device having a scintillator arrangement

1 . A fill level measurement device for radiometrically measuring a fill level, comprising: a first photon counter; a second photon counter; a comparator, and an evaluation unit; wherein the comparator is configured to compare the measurement signals generated by the first photon counter and the second photon counter in order to detect a change, caused by aging or temperature, in the measurement signals generated by the first photon counter; and wherein the evaluation unit is configured to evaluate the measurement signals generated by the first photon counter, taking into account the detected change caused by aging or temperature. 2 . The fill level measurement device according to claim 1 , wherein the second photon counter is temperature-stable. 3 . The fill level measurement device according to claim 1 , wherein the first photon counter is a photomultiplier. 4 . The fill level measurement device according to claim 1 , wherein the second photomultiplier is an avalanche photodiode. 5 . The fill level measurement device according to claim 1 , further comprising: a scintillator arrangement including first and second scintillators; wherein the first photon counter receives light signals from the first scintillator; wherein the second photon counter receives light signals from the second scintillator. 6 . The fill level measurement device according to claim 1 , further comprising: a scintillator arrangement including a scintillator; wherein the first and second photon countersreceive light signals from the scintillator. 7 . The fill level measurement device according to claim 1 , further comprising: a power supply unit providing the supply voltage to the first photon counter; and a control unit configured to alter the supply voltage to the first photon counter that is provided by the power supply unit in the event that a change caused by aging or temperature is detected, in order to compensate for the change. 8 . The fill level measurement device according to claim 1 , wherein the comparator determines a correction factor to evaluate the measurement signals generated by the first photon counter on the basis of the result of the comparison of the measurement signals recorded by the first and the second photon counter and wherein the comparator transmits the correction factor to the evaluation unit. 9 . A method for radiometrically measuring a fill level, comprising: receiving a signal emitted by a radioactive source using a scintillator arrangement; receiving light signals from the scintillator arrangement using a first photon counter and a second photon counter; comparing the measurement signals generated by the first photon counter and the second photon counter in order to detect a change, caused by aging or temperature, in the measurement signals generated by the first photon counter; and evaluating the measurement signals generated by the first photon counter, taking into account the detected change caused by aging or temperature. 10 . The method according to claim 9 , wherein the scintillator arrangement includes a first scintillator and a second scintillator, the first and second scintillators receiving the signals from a radioactive source; wherein the first photon counter receives light signals from the first scintillator; and wherein the second photon counter receives light signals from the second scintillator. 11 . The method according to claim 9 , wherein the evaluating step includes the following substeps: altering a supply voltage to the first photon counter until the measurement signals generated by the first and the second photon counters correspond, assume a specific target value or a specific ratio to one another or are within a certain predefined interval, wherein a power supply unit supplies the supply voltage to the first photon counter, and evaluating the measurement signals generated by the first photon counter using an evaluation unit. 12 . The method according to claim 10 , wherein the evaluating step includes the following substeps: altering a supply voltage to the first photon counter until the measurement signals generated by the first and the second photon counters correspond, assume a specific target value or a specific ratio to one another or are within a certain predefined interval, wherein a power supply unit supplies the supply voltage to the first photon counter, and evaluating the measurement signals generated by the first photon counter using an evaluation unit. 13 . The method according to claim 9 , wherein wherein the evaluating step includes the following substeps: determining a correction factor for the measurement signals that are generated by the first photon counter on the basis of the comparison of the measurement signals generated by the first and the second photon counter; transmitting the correction factor to an evaluation unit; evaluating the measurement signals generated by the first photon counter, taking into account the correction factor, using the evaluation unit. 14 . The method according to claim 10 , wherein wherein the evaluating step includes the following substeps: determining a correction factor for the measurement signals that are generated by the first photon counter on the basis of the comparison of the measurement signals generated by the first and the second photon counter; transmitting the correction factor to an evaluation unit; evaluating the measurement signals generated by the first photon counter, taking into account the correction factor, using the evaluation unit. 15 . A program element which, when executed on a processor of a fill level measurement device, instructs the device to carry out the following steps: receiving light signals from a scintillator arrangement using a first photon counter and a second photon counter; comparing the measurement signals generated by the first and second photon counters in order to detect a change, caused by aging or temperature, in the measurement signals generated by the first photon counter; and evaluating the measurement signals generated by the first photon counter, taking into account the detected change caused by aging or temperature. 16 . A computer-readable medium on which a program element according to claim 15 is stored.