Radiation-detecting device

The invention claimed is: 1. A radiation detection device comprising: a scintillator configured to generate scintillation light in response to incidence of a radiation ray; a photodetector configured to detect the scintillation light output from the scintillator and output a detection signal; a first comparator configured to compare the detection signal with a first threshold voltage and output a first digital signal having a first time width corresponding to a time during which a voltage value of the detection signal exceeds the first threshold voltage; a first time width measurement device configured to measure the first time width of the first digital signal; a second comparator configured to compare the detection signal with a second threshold voltage different from the first threshold voltage and output a second digital signal having a second time width corresponding to a time during which the voltage value of the detection signal exceeds the second threshold voltage; a second time width measurement device configured to measure the second time width of the second digital signal; and an analysis unit configured to obtain a time constant indicating a time waveform of the detection signal based on the first time width and the second time width. 2. The radiation detection device according to claim 1 , wherein the scintillator includes: a first scintillator unit configured to generate scintillation light having a predetermined time waveform; and a second scintillator unit configured to generate scintillation light having a time waveform different from that of the first scintillator unit. 3. The radiation detection device according to claim 2 , wherein the analysis unit is configured to determine, based on the time constant, whether the detection signal output from the photodetector is caused by the scintillation light generated in the first scintillator unit or the second scintillator unit. 4. The radiation detection device according to claim 1 , wherein the photodetector includes: a first photodetection unit configured to output a detection signal having a predetermined time waveform; and a second photodetection unit configured to output a detection signal having a time waveform different from that of the first photodetection unit. 5. The radiation detection device according to claim 4 , wherein the analysis unit is configured to determine, based on the time constant, whether the detection signal is output from the first photodetection unit or the second photodetection unit. 6. The radiation detection device according to claim 1 , wherein each of the first time width measurement device and the second time width measurement device includes a time to digital converter. 7. The radiation detection device according to claim 1 , wherein a rise time τr in the time waveform of the detection signal with a fall time τd satisfies a condition, (τ r/τd )<0.1. 8. The radiation detection device according to claim 1 , wherein the analysis unit is configured to obtain the time constant τ with a formula, τ=( T 1− T 2)/log( V 2/ V 1) where V 1 is the first threshold voltage, T 1 is the first time width, V 2 is the second threshold voltage, and T 2 is the second time width. 9. The radiation detection device according to claim 1 , wherein the analysis unit is configured to obtain a pulse height of the time waveform of the detection signal based on the time constant.