System and method for three-dimensional imaging using scattering from annihilation coincidence photons
First Claim
1. A method for creating an image of a target, the method comprising:
- arranging a radioisotope source that emits positrons that collide with electrons, the collision emitting a first photon and a second photon;
measuring by a gamma detector a first trajectory and a first time associated with the first photon;
calculating by an imaging software module installed on a computer a second time and a second trajectory associated with the second photon;
detecting by an imaging detector a scattered photon created from a collision between the second photon and a target, the imaging detector measuring a scattered trajectory and a scattered time associated with the scattered photon; and
calculating by the imaging software module a position of the target based on the second time, the second trajectory, the scattered time and the scattered trajectory.
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Abstract
Systems and methods are described herein for performing three-dimensional imaging using backscattered photons generated from a positron-electron annihilation. The systems and methods are implemented using the pair of photons created from a positron-electron annihilation. The trajectory and emission time of one of the photons is detected near the annihilation event. Using this collected data, the trajectory of the second photon can be determined. The second photon is used as a probe photon and is directed towards a target for imaging. The interaction of the second probe photon with the target produces back scattered photons that can be detected and used to create a three-dimensional image of the target. The systems and methods described herein are particularly advantageous because they permit imaging with a system from a single side of the target, as opposed to requiring imaging equipment on both sides of the target.
210 Citations
20 Claims
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1. A method for creating an image of a target, the method comprising:
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arranging a radioisotope source that emits positrons that collide with electrons, the collision emitting a first photon and a second photon; measuring by a gamma detector a first trajectory and a first time associated with the first photon; calculating by an imaging software module installed on a computer a second time and a second trajectory associated with the second photon; detecting by an imaging detector a scattered photon created from a collision between the second photon and a target, the imaging detector measuring a scattered trajectory and a scattered time associated with the scattered photon; and calculating by the imaging software module a position of the target based on the second time, the second trajectory, the scattered time and the scattered trajectory. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for creating an image of a target, the system comprising:
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a radioisotope source that generates a positron that collides with an electron and emits a first photon and a second photon; a photon tagger measuring a first trajectory and a first time associated with the first photon; an imaging software module installed on a computer, the imaging software module receiving the first time and the first trajectory associated with the first photon and calculating a second trajectory and a second time associated with the second photon; a target that interacts with the second photon and emits a scattered photon; a detector measuring a scattered trajectory and a scattered time associated with the scattered photon, wherein the imaging software module calculates a position of the target using the scattered trajectory and the scattered time associated with the scattered photon and the second trajectory and the second time associated with the second photon. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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16. A computer program product comprising an imaging software module stored on a non-transitory computer-readable medium, the imaging software module comprising:
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instructions for receiving a first trajectory and a first time from a gamma detector, the first trajectory and the first time associated with a first photon, the first photon being part of a photon pair generated from a collision between a positron and an electron; instructions for calculating a second time and a second trajectory associated with a second photon, the second photon being part of the photon pair; instructions for receiving a scattered trajectory and a scattered time from an imaging detector, the scattered trajectory and the scattered time associated with a scattered photon generated from a collision between the second photon and a target; instructions for calculating a position within the target based on the second time, the second trajectory, the scattered time and the scattered trajectory. - View Dependent Claims (17, 18, 19, 20)
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Specification