Abstract: The invention relates to a method for linearizing attenuation measurements obtained by means of a direct conversion spectrometer. The spectrometer comprises a radiation source and a detector for detecting said radiation after it has passed through an object. An attenuation measurement is represented by a vector Md giving the attenuation of the radiation in a plurality Nk of energy channels of the detector, said spectrometer being characterized by a response matrix ?. Said method estimates, by means of an iterative process, a vector Mlin, called an equivalent linear attenuation vector, giving for each energy channel an attenuation linearly depending on the thickness of the material through which the radiation passes. Said method is applicable to the characterization of the material as well as to the reduction of artifacts in computed tomography.

Abstract: The invention relates to a method for linearizing attenuation measurements obtained by means of a direct conversion spectrometer. The spectrometer comprises a radiation source and a detector for detecting said radiation after it has passed through an object. An attenuation measurement is represented by a vector Md giving the attenuation of the radiation in a plurality Nk of energy channels of the detector, said spectrometer being characterized by a response matrix ?. Said method estimates, by means of an iterative process, a vector Mlin, called an equivalent linear attenuation vector, giving for each energy channel an attenuation linearly depending on the thickness of the material through which the radiation passes. Said method is applicable to the characterization of the material as well as to the reduction of artifacts in computed tomography.