High resolution nanofocus X-ray source based on ultracold electrons from laser cooled-atoms

Abstract: X-ray 3D tomography is So far limited to micron resolution because of the large focusing spot of the focused electron beam on the metal target. Here, we proposed a nanofocous X-ray 3D tomography system based on focused electrons from laser-cooled atoms in a nanoscale region of metal target in vacuum useful for 3D nanotomography and submicron volumetric imaging. We have shown the system has submicron resolution because of ability of focusing cold electrons to submicron size, the smaller the X-ray focal spot, the higher the resolution will be. In our system flux through the specimen of (photons/mm^2/s) can be improved by sub-micron focusing of X-ray radiation as well. In contrast, synchrotrons and X-ray tubes provide intense radiation beams, however, these attributes are not necessary for microtomography and the proposed sub-microfocus source compares favorably with respect to the radiation flux because of ability of sub-micron focusing of electrons from near-threshold photoionizing laser cooled atoms.