Speaker
Dr
Ehsan Salimi
(IPM)
Description
Synchrotron light combines extremely high intensity, small apparent source size, high collimation, tunability, and a continuous energy spectrum (from the far infrared region up to hard X-rays), making this a uniquely useful tool for biomedical imaging and therapy. A dedicated beamline for biomedical researches could be a great tool for various synchrotron imaging methods such as K-edge Subtraction Imaging, Phase Contrast Imaging and Diffraction Enhanced Imaging at Iranian Light Source Facility. A wiggler source of 1.9 T with 7cm periodic length and total length of 2 m has been designed to achieve flux of 1012 photon/s in sample position for energy range of 20-60keV. Optical hutch would be consist of a double crystal monochromator Si(1 1 1) for selecting appropriate energy range based on imaging technique and experiment. Other basic parameters of this beamline such as brilliance, flux density, power, beam size and beam divergence are presented in this paper.
