Abstract
A novel digital coincidence Doppler broadening (D-CDB) spectrometer was employed for energy resolved investigations of two-quantum annihilation-in-flight (TQAF). The TQAF phenomenon was studied using monoenergetic positrons produced in a slow positron beam and also using fast positrons. Because of a low background the measurements on the slow positron beam could be performed in a close geometry and the TQAF contribution in the two-dimensional gamma ray energy spectra fills a 'bowl-like' area delimited by a hyperbolic curve and a kinematical cut-off determined by the kinetic energy of positrons. With decreasing positron energy the area of TQAF contribution becomes smaller and disappears completely for slow positrons with energies below ~ 100 eV. The measurements with fast positrons were restricted to a limited range of angles between the annihilation gamma rays and the TQAF events contribute to a hyperbolic band in gamma ray energy spectrum.
Highlights
-0.3 t failed calculate height add height to histogram normalize & shift add pulse to histogram calibrate energy spectrum
Dryzek (2007) coincidence Doppler broadening spectroscopy (CDB) study of two quantum annihilation in flight (TQAF) using fast positron emitted by 68Ge/68Ga
Digital CDB spectroscopy - analysis of data waveform run 1
Summary
-0.3 t (ns) failed calculate height add height to histogram normalize & shift add pulse to histogram calibrate energy spectrum. Thermalized positron annihilation in rest dominating process in solids Main AiF channel cross section (barn) m0c2 – rest energy of electron, T+ - positron kinetic energy
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