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:
- emitting positrons from a first location that collide with electrons at the first location, wherein each collision results in the emission of a first photon and a second photon;
intercepting by a first detector at least a portion of the emitted first photons and measuring a first trajectory and a first time associated with each of the intercepted first photons based on at least the first location;
calculating by an imaging software module installed on a computer a second time and a second trajectory associated with each of at least a portion of the second photons in accordance with the measured first trajectories and a first times associated with each of the intercepted first photons;
receiving at an imaging detector multiple photons and generating scatter energy and scatter time data for each of the multiple photons, wherein a least a portion of the multiple photons are single-scatter photons resulting from a single collision between a second photon and the target;
filtering by the imaging software module the multiple photons using the scatter energy and scatter time data to identify and retain the single-scatter photons for imaging;
calculating by the imaging software module a scatter trajectory and a scatter time associated with each of the retained single-scatter photons;
calculating by the imaging software module multiple positions within the target based on the second times, the second trajectories, the scatter times and the scatter trajectories; and
creating by the imaging software module a three-dimensional image of the target using at least the calculated multiple positions.
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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.
214 Citations
16 Claims
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1. A method for creating an image of a target, the method comprising:
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emitting positrons from a first location that collide with electrons at the first location, wherein each collision results in the emission of a first photon and a second photon; intercepting by a first detector at least a portion of the emitted first photons and measuring a first trajectory and a first time associated with each of the intercepted first photons based on at least the first location; calculating by an imaging software module installed on a computer a second time and a second trajectory associated with each of at least a portion of the second photons in accordance with the measured first trajectories and a first times associated with each of the intercepted first photons; receiving at an imaging detector multiple photons and generating scatter energy and scatter time data for each of the multiple photons, wherein a least a portion of the multiple photons are single-scatter photons resulting from a single collision between a second photon and the target; filtering by the imaging software module the multiple photons using the scatter energy and scatter time data to identify and retain the single-scatter photons for imaging; calculating by the imaging software module a scatter trajectory and a scatter time associated with each of the retained single-scatter photons; calculating by the imaging software module multiple positions within the target based on the second times, the second trajectories, the scatter times and the scatter trajectories; and creating by the imaging software module a three-dimensional image of the target using at least the calculated multiple positions. - View Dependent Claims (2, 3, 4, 5)
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6. A system for creating an image of a target, the system comprising:
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a positron source and an approximately co-located electron source for facilitating collisions between positrons and electrons in a first location, wherein each collision produces a first photon and a second photon; a photon detector for intercepting at least a portion of the emitted first photons and measuring a first trajectory and a first time associated with each of the intercepted first photons based on at least the first location; an imaging software module installed on a computer, the imaging software module calculating a second trajectory and a second time associated with each second photon in accordance with the measured first trajectory and first time associated with each of the intercepted first photons; an imaging detector receiving multiple photons therein, wherein a least a portion of the multiple photons are single-scatter photons resulting from a single collision between a second photon and the target, and measuring a scatter energy and a scatter time associated with each of the multiple photons; and wherein the imaging software module; filters the multiple photons using the scatter energies and scatter times to identify and retain for target imaging the single-scatter photons; calculates a scatter trajectory and a scatter time associated with each of the retained single-scatter photons; calculates multiple positions within the target based on the second times, the second trajectories, the scatter times and the scattered trajectories; and creates a three-dimensional image of the target using at least the calculated multiple positions. - View Dependent Claims (7, 8, 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 from a photon detector measured pairs of first trajectories and first times associated with individual intercepted first photons, each of the first photons being part of a photon pair generated from a collision between a positron and an electron; instructions for calculating pairs of second times and a second trajectories associated with each of second photons resulting from collisions in accordance with the measured pairs of first trajectories and a first times associated with each of the intercepted first photons; instructions for receiving from an imaging detector pairs of scatter energies and scatter times associated with each of multiple photons received thereby, at least a portion of the multiple photons being single-scatter photons resulting from collisions between each of the second photons and a target; instructions for filtering the multiple photons using the scatter energies and scatter times to identify and retain for target imaging the single-scatter photons; instructions for calculating a scatter trajectory and a scatter time associated with each of the retained single-scatter photons; instructions for calculating multiple positions within the target based on the second times, the second trajectories, the scatter times and the scatter trajectories; and instructions for creating a three-dimensional image of the target using at least the calculated multiple positions.
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Specification