Patent Number: 
Section: abstract

This invention teaches a method of performing gamma-ray microscopy and how to build a gamma-ray microscope. While the beam of gamma rays can not be manipulated like a beam of light or a beam of electrons, magnification is possible using a single-point source of gamma radiation. With this design, gamma rays originate from a tiny point in space and radiate outward as they travel away from the source. This results in magnification when a sample is placed between this single-point source and a detector array. The magnification factor is equal to the source-to-detector distance divided by the source-to-sample distance. A single-point source of gamma rays can be made by crossing a beam of positrons with a beam of electrons. The finer and more focused these beams are, the smaller the single-point source can be, and the higher the resolution can be. Methods of making and focusing electron beams are known in the art of making electron microscopy. These methods can be adapted to accelerate and focus positrons into a fine beam. Positrons can be harvested from radioactive isotopes that emit positrons and trapped by electric fields and magnetic fields for use when necessary. Mini versions of particle accelerator can trap positrons in an orbit for regulated or pulsed beam of positrons to be generated.