The creation of high quality positron beams using traps

Abstract: Abstract. High quality positron beams are currently used for a variety of applications in science and technology. One of the most demanding applications is as analytical tools for surface and materials science, where ultra-short positron pulses (<200 ps) and microscopic beams (<1 micron in diameter) are desirable. Positron traps offer a qualitatively new method for beam formation and manipulation that has significant advantages in efficiency, flexibility, and cost over current beam conditioning techniques. One… Show more

“…Positron annihilation spectroscopy has become a useful probe to study metal and alloy, semiconductor, nanomaterials, and polymers, etc. Recently, positron annihilation spectroscopy has capability to investigate material surface/interface, thin solid films [1,2], and even 3-dimensionally image defects distributions using a variable energy pulsed slow positron beam with high positron flux and brightness [3][4][5]. Improvement of the time resolution of positron pulse of a pulsed slow positron beam is a key issue for extending its applications in material science and fundamental physics [6,7].…”

Design and Simulation of a Trap-Based Pulsed Slow Positron Beam

“…Positron annihilation spectroscopy has become a useful probe to study metal and alloy, semiconductor, nanomaterials, and polymers, etc. Recently, positron annihilation spectroscopy has capability to investigate material surface/interface, thin solid films [1,2], and even 3-dimensionally image defects distributions using a variable energy pulsed slow positron beam with high positron flux and brightness [3][4][5]. Improvement of the time resolution of positron pulse of a pulsed slow positron beam is a key issue for extending its applications in material science and fundamental physics [6,7].…”

Design and Simulation of a Trap-Based Pulsed Slow Positron Beam