Patent ID: 6515270
Filing Date: 2003-02-04
Classification: G01T

Abstract:
A radiation image read-out method, comprising the steps of:(i) linearly irradiating stimulating rays, which have been produced by a line light source, onto an area of one surface of a stimulable phosphor sheet, on which a radiation image has been stored, the stimulating rays causing the stimulable phosphor sheet to emit light in proportion to an amount of energy stored thereon during its exposure to radiation, (ii) receiving light, which is emitted from the linear area of the one surface of the stimulable phosphor sheet exposed to the linear stimulating rays or from a linear area of the other surface of the stimulable phosphor sheet corresponding to the linear area of the one surface of the stimulable phosphor sheet, with a line sensor comprising a plurality of photoelectric conversion devices arrayed along a length direction of the linear area of the stimulable phosphor sheet, the received light being subjected to photoelectric conversion performed by the line sensor, and (iii) moving the stimulable phosphor sheet with respect to the line light source and the line sensor and in a direction different from the length direction of the linear area of the stimulable phosphor sheet, wherein the light, which is emitted from the linear area of the one surface of the stimulable phosphor sheet or from the linear area of the other surface of the stimulable phosphor sheet, is converged by a distributed index lens array, which is located between the stimulable phosphor and the line sensor and which comprises a plurality of distributed index lenses arrayed along the length direction of the linear area of the stimulable phosphor sheet, wherein said distributed index lenses have an efficiency of at least 10%, wherein the distributed index lens array satisfies the formula: NÃ—{1âˆ’cos3(tanâˆ’1(D/2Lo))}&gE;0.1 in which D represents the diameter of the distributed index lens, Lo represents the working distance of the distributed index lens, and N represents the number of the distributed index lenses falling within the radius of field of the distributed index lens.