Spatial resolution limit study of a CCD camera and scintillator based neutron imaging system according to MTF determination and analysis

Spatial resolution limit is a very important parameter of an imaging system that should be taken into consideration before examination of any object. The objectives of this work are the determination of a neutron imaging system's response in terms of spatial resolution. The proposed procedure is based on establishment of the Modulation Transfer Function (MTF). The imaging system being studied is based on a high sensitivity CCD neutron camera (2×10−5 lx at f1.4). The neutron beam used is from the horizontal beam port (H.6) of the Algerian Es-Salam research reactor. Our contribution is on the MTF determination by proposing an accurate edge identification method and a line spread function undersampling problem-resolving procedure. These methods and procedure are integrated into a MatLab code. The methods, procedures and approaches proposed in this work are available for any other neutron imaging system and allow for judging the ability of a neutron imaging system to produce spatial (internal details) properties of any object under examination.

► Determination of spatial response of a neutron imaging system.
► Ability of a neutron imaging system to reproduce spatial properties of any object.
► Spatial resolution limits measurement using MTF with the slanted edge method.
► Accurate edge identification and line spread function sampling improvement.
► Development of a MatLab code to compute automatically the MTF.