Spatial resolution in molecular and radiological imaging

The invention claimed is: 1. An apparatus for generating a high-resolution image of a structure comprising: a mirror system which causes photons to diverge; a detector array having a plurality of detectors, said detector array in communication with said mirror system, said detector array configured to detect said diverging photons; and a processor configured to process intercepts of said diverging photons on the detector array to generate said high-resolution image of said structure. 2. The apparatus of claim 1 further comprising wherein said mirror system diverges said photons by reflection. 3. The apparatus of claim 1 further comprising at least one of the group of a second mirror system wherein said second mirror system is movable, a movable lens system, and a movable shutter system. 4. The apparatus of claim 1 further comprising a collimator which attenuates photons. 5. An apparatus for generating a high-resolution image of a structure comprising: a system through which photons pass and are spread over a large detector area; a detector in communication with said system, said detector array configured to accommodate and receive the photons over a large detector; and a processor providing a high-resolution image. 6. The apparatus of claim 5 further comprising at least one of the group of a movable mirror system, a movable lens system, and a movable shutter system. 7. The apparatus of claim 6 further comprising a collimator which attenuates photons. 8. A method of generating a high-resolution image of an anatomic structure comprising: passing photons through a portion of the human body wherein some of said photons exit said portion of the human body; passing said photons that exit said portion of the human body through a device that diverges said photons in a trajectory towards a photon detector; and generating a high resolution image of the portion of the human body. 9. The method of claim 8 further comprising using at least one of the group of a movable mirror system, a movable lens system, and a movable shutter system. 10. The method of claim 9 further comprising using a collimator to attenuate photons. 11. A method of generating a high-resolution image of an anatomic structure comprising: generating a first group of photons at a first location with a first trajectory; placing a portion of the anatomic structure in the path of said first group photons at a second location; placing a diverging device at a third location wherein said diverging device causes said first group of photons that pass through said portion of the human body take on a second trajectory; detecting said first group of photons on a photon detector at a fourth location; and generating a high resolution image of the portion of the human body. 12. The method of claim 11 further comprising using a diverging device to diverge said photons by at least one of the group of reflection and refraction. 13. The method of claim 12 further comprising using at least one of the group of a movable mirror system, a movable lens system, and a movable shutter system. 14. The method of claim 11 further comprising using a collimator to attenuate photons. 15. A method of generating a high resolution image of an anatomic structure of human body comprising: generating photons with a first trajectory; placing a portion of the anatomic structure of the human body in a path of the said photons; and placing a device in said path of said photons wherein said device performs the steps comprising: altering the first trajectory of said photons; and spreading said photons over a large region of the detector. 16. The method of claim 15 further comprising wherein said device diverges said photons by at least one of the group of reflection and refraction. 17. The method of claim 15 further comprising using at least one of the group of a movable mirror system, a movable lens system, and a movable shutter system. 18. The method of claim 15 further comprising using a collimator to attenuate photons. 19. A method of providing high resolution imaging of an anatomic structure of a human body comprising: generating photons with a first divergence; placing the anatomic structure of the human body in a path of said photons; and placing a device in said path of said photons wherein said device causes said photons to have a second divergence wherein said second divergence is different from said first divergence; detecting said photons on a photon detector; and generating a high resolution image of the portion of the human body. 20. The method of claim 19 further comprising wherein said device diverges said photons by at least one of the group of reflection and refraction. 21. The method of claim 19 further comprising using at least one of the group of a movable mirror system, a movable lens system, and a movable shutter system. 22. The method of claim 19 further comprising using a collimator to attenuate photons. 23. An apparatus for providing high resolution imaging of a human body comprising: an X-ray tube; a device that causes X-ray photons that pass through the body to diverge; and a large detector. 24. An apparatus for providing high resolution imaging of a structure comprising: a rotatable X-ray tube; a device that causes X-ray photons that pass through the structure to diverge; a large detector; and a processor that performs computed tomography. 25. A method comprising: placing a patient in a scanner with a detector and a lens system wherein said lens system is spatially separated from said detector; plotting said detectors, said lens system and said patient in a single coordinate system; plotting known points on detectors based on coincidence detection on said single coordinate system; using laws of refraction and systems of equations to solve fora trajectory of photon paths; and generating a resulting PET data set. 26. The apparatus of claim 5 further comprising a system which diverges said photos by at least one of the group of reflection and refraction. 27. The method of claim 8 further comprising using a system to diverge said photons by at least one of the group of reflection and refraction.